Annual Index for Volume 82, 2005 - Journal of Chemical Education

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Index • Volume 82 • 2005 Publisher

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Vol. 82 No. 12 December 2005

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Index • Volume 82 • 2005

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Index • Volume 82 • 2005 Feature Columns and Their Editors Advanced Chemistry Classroom & Laboratory (ACL) Applications & Analogies (AA) Ask the Historian (ASK) Association Reports: 2YC3 (2YC3) ACS Committee on Professional Training (CPT) ACS Division of Chemical Education (DivCHED) ACS Education (ACS) Council on Undergraduate Research (CUR) Book & Media Reviews (BMR) Chemical Education Research (CER)

Chemical Information Instructor (CII) Chemical Laboratory Information Profile (CLIP) Chemical Principles Revisited (CPR) Chemistry for Kids (CFK) Commentary Computer Bulletin Board (CBB) Concepts in Biochemistry (CIB) Corrections Cost-Effective Teacher (CET) Editorial Especially for High School Teachers (EHST) From Past Issues (FPI) Green Chemistry Interdisciplinary Connections (IC) JCE Buyers Guide JCE Classroom Activity

JCE DigiDemos: Tested Demonstrations (TD) JCE Online JCE QBank: Resources for Student Assessment (RSA) JCE Reviewed Web Sites JCE Software Letters

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Joseph J. BelBruno Arthur M. Last William B. Jensen John Kenkel F. Fleming Crim Donald J. Wink Sylvia A. Ware Kerry K. Karukstis Jeffrey D. Kovac Diane M. Bunce (chair) Christopher F. Bauer Melanie Cooper Amy J. Phelps Michael Sanger Charles R. Ward Vickie M. Williamson Andrea Twiss-Brooks Jay A. Young Cary Kilner John T. Moore & David Tolar Elizabeth A. Moore Steven D. Gammon William M. Scovell Mary E. Saecker Hal Harris John W. Moore Diana S. Mason & Erica K. Jacobsen Kathryn R. Williams Mary M. Kirchhoff Mark Alber Hal Harris Erica K. Jacobsen & Julie Cunningham Edward Vitz Jon L. Holmes Thomas A. Holme Linda Fanis & Mithra Beikmohamadi Jon L. Holmes Mary E. Saecker


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The Microscale Laboratory (ML) Molecular Modeling Exercises & Experiments (MMEE) News & Announcements NSF Highlights (NSF)

Only@JCE Online Features: Biographical Snapshots of Famous Women & Minority Chemists Chem. Education Resource Shelf Conceptual Questions and Challenge Problems Hals’ Picks JCE HS CLIC JCE Discussion Forums

Project Chemlab Annotated Database JCE Digital Library: JCE ChemInfo JCE DigiDemos JCE Featured Molecules JCE LivTexts JCE LrnComOnline

JCE QBank JCE SymMath JCE WebWare Overhead Projector Demos (OPD) Products of Chemistry (POC) Project Chemlab Reports from Other Journals: Nature (ROJNature)

The Physics Teacher (ROJPhysTea) Research Advances (ROJResAdv) The Science Teacher (ROJSciTea) Safety Tips (ST) Second-Year & AP Chemistry (2AP) Secondary School Chemistry (SSC) Teaching with Problems and Case Studies (TPCS) Teaching with Technology (TECH) Topics in Chemical Instrumentation (TICI) View from My Classroom (VIEW)


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R. David Crouch Ronald Starkey & Alan Shusterman Elizabeth A. Moore Richard F. Jones & Susan Hixson Barbara A. Burke Hal Harris William R. Robinson & Susan C. Nurrenbern Hal Harris Erica K. Jacobsen Jon L. Holmes Stephen Hawkes Erica K. Jacobsen James Spencer Carolyn B. Allen & Jon L. Holmes Hans J. Reich Edward Vitz William F. Coleman Theresa Julia Zielinski Theresa Julia Zielinski & George Long Rachel Bain & Ieva Reich Theresa Julia Zielinski William F. Coleman & Edward Fedosky Doris K. Kolb George B. Kauffman Carolyn B. Allen Sabine Heinhorst & Gordon Cannon Roy W. Clark Angela King Steve Long Timothy Champion John Fischer Diana S. Mason Grant R. Krow & Kim Kostka Gabriela Weaver David A. Treichel David L. Byrum

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Volume 82 • 2005 • Author Index

Author Index Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) November, 1728–1735. Angeli, C.; Borini, S.; Cimiraglia, R. Kmonodim, a Program for the Numerical Solution of the One-Dimensional Schrödinger Equation. May, 795–800. Angnes, L.; Penteado, J. C.; Masini, J. C.; Oliveira, P. C. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. July, 1074–1078. Antler, M.; Salin, E.; Wilczek-Vera, G. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. March, 425– 427. Applebee, M. S.; Ophardt, C. E.; Losey, E. N. Chemical Demonstrations as the Laboratory Component in Nonscience Majors Courses. An Outreach-Targeted Approach. August, 1174–1177. Araña Mesa, J.; Herrera-Melián, J. A. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate—Author Reply (re J. Chem. Educ. 2001, 78, 775–777). (Letter) April, 526. Arasasingham, R. D.; Taagepera, M.; Potter, F.; Martorell, I.; Lonjers, S. Assessing the Effect of WebBased Learning Tools on Student Understanding of Stoichiometry Using Knowledge Space Theory. (TECH) August, 1251–1262. Arceo, J. F.; Winkler, L. D.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. Quantum Dots: An Experiment for Physical or Materials Chemistry. November, 1700–1702. Artz, P. G.; Reed, N. A.; Rapp, R. D.; Hamann, C. S. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. July, 1053–1054. Ashkenazi, G. The Meaning of d-Orbital Labels. February, 323–324. Augustine, B. H.; Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A. Quantum Dots: An Experiment for Physical or Materials Chemistry. November, 1700– 1702.

The Author Index lists each article by author(s), title, (feature column), month, and page number(s). A key to the feature column abbreviations is on page 1882.

A Abrams, N. M.; Schaak, R. E. Self-Assembled Colloidal Crystals: Visualizing Atomic Crystal Chemistry Using Microscopic Analogues of Inorganic Solids. March, 450–452. Adhyaru, B.; Williams, K. R.; Timofeev, J.; Blankenship, M. K. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. June, 924–925. Ahn, H.; Whitten, J. E. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. June, 909–911. Alatorre-Ordaz, A.; Ibañez, J. G.; Mayen-Mondragon, R.; Moran-Moran, M. T.; Mattson, B.; Eskestrand, S. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) October, 1546–1548. Aldaz, A.; Frías-Ferrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Walsh, F. C. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. September, 1395–1398. Alger, W. H.; Stelick, S. J.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. September, 1361–1364. Alibrandi, G.; D’Aliberti, S.; Coppolino, S.; Villari, A.; Micali, N. Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) March, 442–444. Allen, B. C.; Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II OxygenEvolving Complex. May, 791–794. Allen, D.; Oliver-Hoyo, M. T. Attitudinal Effects of a Student-Centered Active Learning Environment. (CER) June, 944–949. Allen, R.; Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Bodily, G. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) November, 1728–1735. Almeida, C. A.; Liotta, L. J. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. December, 1794–1799. Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Kosinski, J.; Sinton, M. A Networked NMR Spectrometer: Configuring a Shared Instrument. September, 1342–1344. Alonso, D. E.; Warren, S. E. NMR Analysis of Unknowns: An Introduction to 2D NMR Spectroscopy. September, 1385–1386. Alter, K. P.; Molloy, J. L.; Niemeyer, E. D. Spectrophotometric Determination of the Dissociation Constant of an Acid–Base Indicator Using a Mathematical Deconvolution Technique. November, 1682–1685. Alty, L. T. Monoterpene Unknowns Identified Using IR, 1 H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. September, 1387–1389. Amburgey-Peters, J. C.; Haynes, L. W. The Addition of Bromine to 1,2-Diphenylethene. July, 1051–1052. Andersen, T.; Woodfield, B. F.; Andrus, M. B.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) November, 1728–1735. Anderson, C. Presumptive and Confirmatory Drug Tests. December, 1809–1810. Andrews, C. S.; Powers, J. L.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. January, 93–95. Andrus, M. B.; Woodfield, B. F.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.;

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B Baar, M. R.; Cerrone-Szakal, A. L. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. July, 1040–1042. Baar, M. R.; Russell, C. E.; Wustholz, K. L. The Ethylene Ketal Protecting Group Revisited: The Synthesis of 4-Hydroxy-4,4-diphenyl-2-butanone. July, 1057– 1058. Baar, M. R.; Wustholz, K. L. Diels–Alder Synthesis of endocis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. September, 1393–1394. Báez-Galib, R.; Colón-Cruz, H.; Resto, W.; Rubin, M. R. Chem-2-Chem: A One-to-One Supportive Learning Environment for Chemistry. (CER) December, 1859–1863. Bain, R.; Jacobsen, J. J.; Maynard, J. H.; Moore, J. W. Chemistry Comes Alive!, Volume 7. Abstract of Special Issue 32, a CD-ROM of Flames and Explosions. (JCE Software) July, 1102–1104. Balfour, M.; Shaw, R.; Severin, A.; Nettles, C. Diels– Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. April, 625–629. Ballantine, D. S.; Sobel, R. M.; Ryzhov, V. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. April, 601–603. Barker, K. H.; Holden, M. S.; Crouch, R. D. Formation of α-Tetralone by Intramolecular Friedel–Crafts Acylation. (ML) June, 934–935. Barot, B.; Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Kosinski, J.; Sinton, M. A Networked NMR Spectrometer: Configuring a Shared Instrument. September, 1342–1344. Barreto, M. C. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. January, 103–104. Barrie, P. J. JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) June, 958–959.

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Barrows, S. E.; Eberlein, T. H. Cis and Trans Isomers of Cycloalkenes. September, 1334–1339. Barrows, S. E.; Eberlein, T. H. Understanding Rotation about a C=C Double Bond. September, 1329–1333. Baru, A. R.; Mohan, R. S. The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. November, 1674–1675. Bateman, R. C., Jr.; Booth, D.; Sirochman, R.; Richardson, D. C.; Richardson, J. S.; Weiner, S. W.; Farwell, M.; Putnam-Evans, C. Assessment of Molecular Construction in Undergraduate Biochemistry. December, 1854–1858. Batt, C. A.; Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. September, 1361–1364. Baudry, J.; Hergenrother, P. J. Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical–Computational Project. June, 890–894. Bauer, C. F. Beyond “Student Attitudes”: Chemistry SelfConcept Inventory for Assessment of the Affective Component of Student Learning. (CER) December, 1864–1870. Bazzi, A.; Kreuz, B.; Wuokila, J.; Maqboul, A. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. March, 435–438. Beauchamp, G. Further Analysis of Boiling Points of Small Molecules, CH wFxClyBrz. December, 1842– 1845. Beckers, J. L. The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. April, 604–606. Bedrossian, M. A Cool Drink! An Introduction to Concentrations. (JCE Classroom Activity) February, 240A–240B. Behnert, J.; Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. May, 782–786. Behrman, E. J. Music and Chemistry (re J. Chem. Educ. 2004, 81, 507–508). (Letter) January, 37. Behrman, E. J.; Gopalan, V. Cholesterol and Plants. (CIB) December, 1791–1793. Bendikov, T. A.; Harmon, T. C. A Sensitive Nitrate IonSelective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) March, 439–441. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. July, 1068–1070. Bennett, G. D. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) September, 1380–1381. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. Authors: Know the Hazards, Please!—Author Reply (re J. Chem. Educ. 2005, 82, 765–768). (Letter) December, 1775. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. May, 765–768. Bently, A. B.; Gellene, G. I. A Six-Year Study of the Effects of a Remedial Course in the Chemistry Curriculum. (CER) January, 125–130. Bergendahl, C.; Tibell, L. Boosting Complex Learning by Strategic Assessment and Course Design. (CER) April, 645–651. Bergo, C. H.; Middlecamp, C. H.; Shanbhag, V. ACS National Meeting. Program for the Division of Chemical Education: Washington, DC, August 28– September 1, 2005. August, 1123–1130. Berka, L. H.; Fishtik, I. Procedure for Decomposing a Redox Reaction into Half-Reactions. April, 553–557. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. September, 1365– 1369. Bernal, P. J. Promethean Ambitions: Alchemy and the Quest to Perfect Nature (by William R. Newman). (BMR) April, 531–532. Bernardes, L. S.; Carvalho, I.; Borges, Á. D. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and


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tative Examination of Multiple Methods for Standardizing a Dilute Hydrochloric Acid Solution in an Undergraduate Chemistry Laboratory. March, 428–434. Bozeman, A. D.; Seney, C. S.; Sinclair, K. V.; Bright, R. M.; Momoh, P. O. Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. December, 1826–1829. Bracken, J. D.; Tietz, D. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. May, 762–764. Branca, M.; Soletta, I. Thermal Expansion: Using Calculator-Based Laboratory Technology To Observe the Anomalous Behavior of Water. April, 613–615. Brege, J. J.; Williams, G. L.; Vohs, J. K.; Fahlman, B. D. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. May, 771–774. Bretz, S. L.; Grove, N. P. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An InquiryBased Murder Mystery. October, 1532–1533. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. Synthesis and Analysis of Copper Hydroxy Double Salts. November, 1662. Bright, R. M.; Seney, C. S.; Sinclair, K. V.; Momoh, P. O.; Bozeman, A. D. Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. December, 1826–1829. Brooks, D. W.; Schraw, G.; Crippen, K. J. PerformanceRelated Feedback: The Hallmark of Efficient Instruction. April, 641–644. Brooks, D. W.; Schraw, G.; Crippen, K. J. Using an Interactive, Compensatory Model of Learning To Improve Chemistry Teaching. April, 637–640. Brosnick, L.; Palmer, J. Designing Element T-shirts: Spelling with the Periodic Table. April, 517. Brouwer, H. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. April, 611–612. Brown, S. D.; White, H. B., III.; Johnston, M. V. Contemporary Moral Problems in Chemistry: Effect of Peer Presentations on Students’ Awareness of Science and Society Issues. (CER) October, 1570–1576. Brown, V.; Soltzberg, L. J. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate (re J. Chem. Educ. 2001, 78, 775–777). (Letter) April, 526. Brown, Z.; Starkey, R. Circular Birefringence and Circular Dichroism Simulation. (JCE SymMath) July, 1100. Brudvig, G. W.; Howard, D. L.; Tinoco, A. D.; Vrettos, J. S.; Allen, B. C. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II OxygenEvolving Complex. May, 791–794. Bull, A. W.; Seeley, J. V.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. February, 282–285. Burke, K. A.; Meints, C. Meeting Report: Chemistry Everywhere. A Brief Report on the 18th Biennial Conference on Chemical Education. January, 17–20. Burtch, E. A.; Jones-Wilson, T. M. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) April, 616–617. Bushey, M. M.; Mills, N. S.; Spence, J. D. Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. August, 1226–1228. Byrum, A. ACS National Meeting. Undergraduate Program: San Diego. March, 362–363. Byrum, A. ACS National Meeting. Undergraduate Program: Washington, DC. August, 1132–1133.

the Molecular Basis of Drug Action. (MMEE) April, 588–596. Bertrand, G. L. Thermodynamic Calculation of Work for Some Irreversible Processes. June, 874–877. Bevilacqua, V. L.; Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. January, 93– 95. Bhattacharyya, G.; Bodner, G. M. “It Gets Me to the Product”: How Students Propose Organic Mechanisms. (CER) September, 1402–1407. Bindel, T. H. Regarding Entropy Analysis—Author Reply (re J. Chem. Educ. 2004, 81, 1585–1594). (Letter) June, 839. Birdwhistell, K. R.; Spence, T. G. M&M Orange—Author Reply (re J. Chem. Educ. 2002, 79, 847). (Letter) February, 209. Black, T. H.; Treadwell, E. M. An Engaging Illustration of the Physical Differences among Menthol Stereoisomers. July, 1046–1048. Blanck, H. F. A Device To Emulate Diffusion and Thermal Conductivity Using Water Flow. (TD) October, 1523–1529. Blankenship, M. K.; Williams, K. R.; Adhyaru, B.; Timofeev, J. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. June, 924–925. Blasie, C. W.; Palladino, G. F. Implementing the Professional Development Standards: A Research Department’s Innovative Masters Degree Program for High School Chemistry Teachers. April, 567–570. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. November, 1667–1670. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. March, 453–455. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. Reduction of Ilmenite with Charcoal. March, 456–459. Boatman, E. M.; Lisensky, G. C. Colors in Liquid Crystals. (JCE Classroom Activity) September, 1360A– 1360B. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. November, 1697–1699. Bodily, G.; Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) November, 1728–1735. Bodner, G. M.; Bhattacharyya, G. “It Gets Me to the Product”: How Students Propose Organic Mechanisms. (CER) September, 1402–1407. Boggess, B. Understanding Mass Spectra, A Basic Approach, Second Edition (by R. Martin Smith). (BMR) May, 687–688. Bond-Robinson, J.; Otto, W.; Larive, C. K.; Mason, S. L.; Heppert, J. A.; Ellis, J. D. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. October, 1552– 1554. Booth, D.; Bateman, R. C., Jr.; Sirochman, R.; Richardson, D. C.; Richardson, J. S.; Weiner, S. W.; Farwell, M.; Putnam-Evans, C. Assessment of Molecular Construction in Undergraduate Biochemistry. December, 1854–1858. Bopegedera, A. M. The Art and Science of Light. An Interdisciplinary Teaching and Learning Experience. (IC) January, 55–59. Bopegedera, A. M. STEMming the Tide: Using Career Week Activities To Recruit Future Chemists. October, 1505–1506. Borges, Á. D.; Carvalho, I.; Bernardes, L. S. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) April, 588–596. Borini, S.; Angeli, C.; Cimiraglia, R. Kmonodim, a Program for the Numerical Solution of the One-Dimensional Schrödinger Equation. May, 795–800. Borjemscaia, N. C.; Young, M. D.; Wladkowski, B. D. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. June, 912–915. Bowens, D. B.; Meagher, N. E.; Clark, B. S. A Quanti-

Cady, S. A 3D Model of Double-Helical DNA Showing Variable Chemical Details. January, 79–84. Cannon, G.; Heinhorst, S. Nature: Environmental Problems and New Hope for the Treatment of Malaria. (ROJNature) February, 186–188. Cannon, G.; Heinhorst, S. Nature: Small, Smaller, Smallest. A Pocket-size Device, Nano-size Electrical Conduits, and Amyloid Protein Fibril Structure. (ROJNature) November, 1599–1600. Caramori, G. F.; Galembeck, S. E.; Romero, J. R. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. December, 1800–1804. Cardellini, L. Chemistry, Creativity, Collaboration, and C60: An Interview with Harold W. Kroto. May, 751– 755.

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Carr, P. W.; Vitha, M. F.; Mabbott, G. A. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. June, 901–902. Carrasquillo, A., Jr.; Rodríguez-López, M. Improving Conceptions in Analytical Chemistry: ciVi = cfVf. September, 1327–1328. Carroll, W. F., Jr. ACS National Meeting. ACS Presidential Events: San Diego. March, 364. Carroll, W. F., Jr. ACS National Meeting. Presidential Events. August, 1131. Carvalho, I.; Borges, Á. D.; Bernardes, L. S. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) April, 588–596. Casanovas, A.; Dolz, M.; Delegido, J.; Hernández, M. A Low-Cost Experiment on Newtonian and NonNewtonian Fluids. March, 445–447. Casey, R. E.; Pittman, F. A. Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. February, 260–264. Casiday, R. E.; Herman, C.; Deppe, R. K.; Gilbertson, M.; Spees, W. M.; Holten, D.; Frey, R. F. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) December, 1871–1879. Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. An Animated Interactive Overview of Molecular Symmetry. (JCE WebWare) November, 1742–1743. Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. The Use of the Free, Open-Source Program Jmol To Generate an Interactive Web Site To Teach Molecular Symmetry. November, 1736–1740. Castner, E. W., Jr. Modern Spectroscopy, 4th Edition (by J. Michael Hollas). (BMR) January, 43–44. Cavalheiro, C. S.; Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. December, 1815–1819. Cavalheiro, É. T.; Ramos, L. A.; Prieto, K. R.; Cavalheiro, C. S. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. December, 1815–1819. Cave, G. W.; Raston, C. L. Green Chemistry Laboratory: Benign Synthesis of 4,6-Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) March, 468– 469. Celej, M. S.; Fidelio, G. D.; Dassie, S. A. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) January, 85–92. Centelles, J. J.; Imperial, S. The Stereochemistry of Biochemical Molecules: A Subject to Revisit. January, 75– 78. Cerrada, E.; Laguna, M. Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. April, 630–633. Cerrone-Szakal, A. L.; Baar, M. R. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. July, 1040–1042. Chan, W.; Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) August, 1231–1233. Chancey, K.; Gordon, J. S. The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. February, 286–287. Chancey, K.; Gordon, J. S. Steel Wool and Oxygen: A Look at Kinetics. July, 1065–1067. Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. 3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) November, 1741–1742. Chen, F. M. Computing Liquid–Vapor Phase Diagrams for Non-Ideal Binary Mixtures. (JCE SymMath) July, 1100. Chen, F. M. Exploring the Uncertainty Principle. (JCE SymMath) July, 1101. Chen, F. M. Learning Molecular Geometry and Symmetry through Quantum Computations and Mathcad Exercises. (JCE SymMath) January, 174. Choi, M. M.; Xiao, D.; Lin, L.; Yuan, H.; Chan, W. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) August, 1231–1233. Cimiraglia, R.; Angeli, C.; Borini, S. Kmonodim, a Program for the Numerical Solution of the One-Dimensional Schrödinger Equation. May, 795–800.

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Coppola, B. P.; Pagni, R. M.; Frech, C. B.; Harris, H. H.; Kovac, J. D. Summer Reading. June, 817–824. Coppolino, S.; Alibrandi, G.; D’Aliberti, S.; Villari, A.; Micali, N. Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) March, 442–444. Cordes, T. J.; Czerwinski, C. J. A Methane Balloon Inflation Chamber. (TD) February, 248–250. Cornwall, S.; Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Knudsen, G. A.; Seeley, S. K. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. February, 282–285. Cortés Montañez, M. T.; Moreno Piraján, J. C. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. September, 1372–1373. Cortés-Figueroa, J. E.; Moore-Russo, D. A. Correction to “Promoting Graphical Thinking: Using Temperature and a Graphing Calculator To Teach Kinetics Concepts” (re J. Chem. Educ. 2004, 81, 69–71). (Correction) August, 1151. Cosand, A. C.; Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Fox, M. M. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. September, 1349–1354. Craig, D. B. Equilibrium Gel Filtration Chromatography for the Measurement of Protein–Ligand Binding in the Undergraduate Biochemistry Laboratory. January, 96–98. Craig, N. C. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) June, 827–828. Crippen, K. J.; Brooks, D. W.; Schraw, G. PerformanceRelated Feedback: The Hallmark of Efficient Instruction. April, 641–644. Crippen, K. J.; Schraw, G.; Brooks, D. W. Using an Interactive, Compensatory Model of Learning To Improve Chemistry Teaching. April, 637–640. Crone, W. C.; Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L. Authors: Know the Hazards, Please!—Author Reply (re J. Chem. Educ. 2005, 82, 765–768). (Letter) December, 1775. Crone, W. C.; Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. May, 765–768. Crone, W. C.; Payne, A. C.; deProphetis, W. A.; Ellis, A. B.; Derenne, T. G.; Zenner, G. M. Communicating Science to the Public through a University– Museum Partnership. May, 743–750. Crouch, R. D. Molecular Diversity and Combinatorial Chemistry: Principles and Applications (Tetrahedron Organic Chemistry Series) (by Michael C. Pirrung). (BMR) August, 1154–1156. Crouch, R. D.; Holden, M. S.; Barker, K. H. Formation of α-Tetralone by Intramolecular Friedel–Crafts Acylation. (ML) June, 934–935. Crute, T. D. Teaching Significant Figures Using Age Conversions. (AA) October, 1507–1508. Cuccia, L. A.; Koby, L.; Ningappa, J. B.; Dakessian, M. Chiral Crystallization of Ethylenediamine Sulfate. July, 1043–1045. Cunningham, K. D. More Elementary Riddles. April, 539–540. Cunningham, M. F.; Lenzi, M. K.; Silva, F. M.; Lima, E. L.; Pinto, J. C. Low-Cost Thermocouple SignalConditioning Module. (CET) January, 122–123. Currano, J. N. Learning To Search in Ten Easy Steps: A Review of a Chemical Information Course. (CII) March, 484–488. Czerwinski, C. J.; Cordes, T. J. A Methane Balloon Inflation Chamber. (TD) February, 248–250.

Cintas, P. Chemistry and Luminescence (re J. Chem. Educ. 2005, 82, 49). (Letter) June, 837. Clark, B. S.; Meagher, N. E.; Bowens, D. B. A Quantitative Examination of Multiple Methods for Standardizing a Dilute Hydrochloric Acid Solution in an Undergraduate Chemistry Laboratory. March, 428–434. Clark, R. W. The Physics Teacher: Black Boxes, Frozen Lakes, and What = mc 2 ? (ROJPhysTea) November, 1611–1612. Clark, R. W. The Physics Teacher: Sliders, Staircases, and Seduction. (ROJPhysTea) February, 200. Clennan, E. L.; Clennan, M. M. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. November, 1676–1678. Clennan, M. M.; Clennan, E. L. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. November, 1676–1678. Clough, S. C.; Goldman, E. W. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. September, 1378–1379. Coates, G. W.; Getzler, Y. D.; Schmidt, J. A. Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. April, 621–624. Cohen, A.; Reimann, C. T.; Mie, A.; Nilsson, C. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. August, 1215–1218. Coleman, W. F. Antimicrobial Agents Used on Textiles. (JCE Featured Molecules) January, 171. Coleman, W. F. Azulene Chemistry. (JCE Featured Molecules) November, 1688. Coleman, W. F. Chemistry of Blood Types. (JCE Featured Molecules) December, 1853. Coleman, W. F. The Chemistry of Coffee. (JCE Featured Molecules) August, 1167. Coleman, W. F. Compounds That Promote Seed Germination. (JCE Featured Molecules) March, 488. Coleman, W. F. Menthol Stereoisomers. (JCE Featured Molecules) July, 1048. Coleman, W. F. Moth Repellent Chemicals. (JCE Featured Molecules) September, 1324. Coleman, W. F. Nicotine Smoke Chemistry. (JCE Featured Molecules) October, 1583. Coleman, W. F. Organic Xenobiotics. (JCE Featured Molecules) February, 264. Coleman, W. F. Photosystem II Oxygen-Evolving Complex. (JCE Featured Molecules) May, 800. Coleman, W. F. Shikimic Acid. (JCE Featured Molecules) April, 656. Coleman, W. F. Weekly Molecules: A Cure for the 8:30 a.m. Blues. (JCE Featured Molecules) June, 850. Coleman, W. F.; Fedosky, E. W. Interactive Spreadsheets in JCE WebWare. (JCE WebWare) August, 1263. Coleman, W. F.; Fedosky, E. W. More Interactive Spreadsheets in JCE WebWare. (JCE WebWare) September, 1423. Coleman, W. F.; Fedosky, E. W. Peer-Reviewed JCE WebWare. (JCE WebWare) April, 655–656. Coleman, W. F.; Fedosky, E. W. Peer-Reviewed JCE WebWare. (JCE WebWare) June, 960. Coleman, W. F.; Fedosky, E. W. Peer-Reviewed JCE WebWare. (JCE WebWare) October, 1584. Coleman, W. F.; Fedosky, E. W. Peer-Reviewed WebWare: Connected Chemistry. (JCE WebWare) March, 494. Coleman, W. F.; Fedosky, E. W. Teaching Molecular Symmetry with JCE WebWare. (JCE WebWare) November, 1741. Coleman, W. F.; Lim, K. F. The Effect of Anharmonicity on Diatomic Vibration: A Spreadsheet Simulation. (JCE WebWare) August, 1263–1264. Collado-Sánchez, C.; Hernández-Brito, J. J.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. February, 271–273. Colón-Cruz, H.; Báez-Galib, R.; Resto, W.; Rubin, M. R. Chem-2-Chem: A One-to-One Supportive Learning Environment for Chemistry. (CER) December, 1859–1863. Conover, W. The Fly in the Ointment: 70 Fascinating Commentaries on the Science of Everyday Life (by Joe Schwarcz). (BMR) December, 1777. Cook, E.; Cook, R. L. Cross-Proportions: A Conceptual Method for Developing Quantitative Problem-Solving Skills. August, 1187–1189. Cook, R. L.; Cook, E. Cross-Proportions: A Conceptual Method for Developing Quantitative Problem-Solving Skills. August, 1187–1189.

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D D’Aliberti, S.; Alibrandi, G.; Coppolino, S.; Villari, A.; Micali, N. Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) March, 442–444. Da Silva, F. A.; Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Silva, C. M. Dynamic and Equilibrium Adsorption Experiments. June, 919–923. Dahm, C. E. Addendum to “Laser-Pointer-Based Spectrometer for Endpoint Detection of EDTA Titrations”. (Letter) May, 683. Dakessian, M.; Koby, L.; Ningappa, J. B.; Cuccia, L. A. Chiral Crystallization of Ethylenediamine Sulfate. July, 1043–1045. Daley, J. M.; Landolt, R. G. A Substitute for “Bromine in Carbon Tetrachloride”. January, 120–121. Dalke, B. J.; Nicaise, O. J.; Ostrom, K. F. Generation,

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Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) July, 1059–1064. Dassie, S. A.; Celej, M. S.; Fidelio, G. D. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) January, 85–92. Davis, C. M. Fifty Ways To Make Boric Acid (with Apologies to Paul Simon). April, 541. De Jesús, M. A. Environmental Laboratory Exercises for Instrumental Analysis and Environmental Chemistry (by Frank M. Dunnivant). (BMR) March, 382. de Levie, R. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? June, 885–888. de Levie, R. On Teaching Ionic Activity Effects: What, When, and Where? June, 878–884. de Oliveira, W.; Osorio, V. K.; El Seoud, O. A. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) February, 257–259. DeGraff, B. A.; Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; Augustine, B. H. Quantum Dots: An Experiment for Physical or Materials Chemistry. November, 1700–1702. Delegido, J.; Dolz, M.; Casanovas, A.; Hernández, M. A Low-Cost Experiment on Newtonian and NonNewtonian Fluids. March, 445–447. DeMeo, S. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. August, 1219–1222. Demitri, N.; Geremia, S. Crystallographic Study of Manganese(III) Acetylacetonate: An Advanced Undergraduate Project with Unexpected Challenges. March, 460–465. DePierro, E.; Garafalo, F. Some Insights Regarding a Popular Introductory Gas Law Experiment. August, 1194–1196. Deppe, R. K.; Herman, C.; Casiday, R. E.; Gilbertson, M.; Spees, W. M.; Holten, D.; Frey, R. F. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) December, 1871–1879. deProphetis, W. A.; Payne, A. C.; Ellis, A. B.; Derenne, T. G.; Zenner, G. M.; Crone, W. C. Communicating Science to the Public through a University–Museum Partnership. May, 743–750. Derenne, T. G.; Payne, A. C.; deProphetis, W. A.; Ellis, A. B.; Zenner, G. M.; Crone, W. C. Communicating Science to the Public through a University–Museum Partnership. May, 743–750. Deters, K. M. Student Opinions Regarding InquiryBased Labs. (VIEW) August, 1178–1180. Di Raddo, P. The Moment. July, 984. Diaz, L.; Smith, C. A. Investigating the Photoelectric Effect Using LEDs and a Modular Spectroscope. June, 906–908. Dickinson, J. T. Nantribology: Rubbing on a Small Scale. May, 734–742. DiJiacomo, C.; Bendinskas, K.; Krill, A.; Vitz, E. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. July, 1068–1070. Diogo, H. P.; Dionísio, M.; Farinha, J. P.; Moura-Ramos, J. J. Rotational Mobility in a Crystal Studied by Dielectric Relaxation Spectroscopy. An Experiment for the Physical Chemistry Laboratory. September, 1355– 1360. Dionísio, M.; Diogo, H. P.; Farinha, J. P.; Moura-Ramos, J. J. Rotational Mobility in a Crystal Studied by Dielectric Relaxation Spectroscopy. An Experiment for the Physical Chemistry Laboratory. September, 1355– 1360. Dolz, M.; Delegido, J.; Casanovas, A.; Hernández, M. A Low-Cost Experiment on Newtonian and NonNewtonian Fluids. March, 445–447. Drew, M.; Liu, Y.; Liu, Y. Where Should the Nuclei Be Located? February, 320–322. Duffy-Matzner, J. L.; Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R. Instrumental Proficiency Program for Undergraduates. June, 898–900. Dungey, K. E.; Muller, D. P.; Gunter, T. Preparation of Dppe-Stabilized Gold Nanoparticles. May, 769–770. Dunn, K. M. Introduction to Quantum Mechanics: in Chemistry, Material Science, and Biology (by S. M. Blinder). (BMR) March, 383–386. Dybowski, C. R. Reaction to “Something Might Be Gaining on Us” (re J. Chem. Educ. 2004, 81, 1079). (Letter) February, 210–211.


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Esteb, J. J.; Hohman, J. N.; Schlamadinger, D. E.; Wilson, A. M. A Solvent-Free Baeyer–Villiger Lactonization for the Undergraduate Organic Laboratory: Synthesis of γ-t-Butyl-ε-caprolactone. December, 1837–1838. Evans, S. V.; Rose, N. L.; Palcic, M. M. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) December, 1846–1853. Exarhos, G. J.; Windisch, C. F., Jr.; Sharma, S. K. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. June, 916–918. Expósito, E.; Frías-Ferrer, A.; González-García, J.; Sáez, V.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. September, 1395–1398.

Earl, G. W.; Weisshaar, D. E.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. Instrumental Proficiency Program for Undergraduates. June, 898– 900. Eberlein, T. H. Instant Notes in Organic Chemistry, 2nd Edition (by Graham L. Patrick). (BMR) December, 1778–1780. Eberlein, T. H.; Barrows, S. E. Cis and Trans Isomers of Cycloalkenes. September, 1334–1339. Eberlein, T. H.; Barrows, S. E. Understanding Rotation about a C=C Double Bond. September, 1329–1333. Economou, A.; Tzanavaras, P. D.; Themelis, D. G. Sequential-Injection Analysis: Principles, Instrument Construction, and Demonstration by a Simple Experiment. (TICI) December, 1820–1822. Edmonds, M. K.; Payne, R. Isolation of Shikimic Acid from Star Aniseed. April, 599–600. Eilks, I. Experiences and Reflections about Teaching Atomic Structure in a Jigsaw Classroom in Lower Secondary School Chemistry Lessons. (CER) February, 313–319. El Seoud, O. A.; Osorio, V. K.; de Oliveira, W. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) February, 257–259. Elder, D. P. Pharmaceutical Applications of Ion-Exchange Resins. (POC) April, 575–587. Elder, J. W. M&M Orange (re J. Chem. Educ. 2002, 79, 847). (Letter) February, 209. Elkins, P.; Msimanga, H. Z.; Tata, S. K.; Smith, D. R. A Chemometrics Module for an Undergraduate Instrumental Analysis Chemistry Course. March, 415– 424. Ellis, A. B.; Bentley, A. K.; Farhoud, M.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. Authors: Know the Hazards, Please!—Author Reply (re J. Chem. Educ. 2005, 82, 765–768). (Letter) December, 1775. Ellis, A. B.; Bentley, A. K.; Farhoud, M.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. May, 765–768. Ellis, A. B.; Payne, A. C.; deProphetis, W. A.; Derenne, T. G.; Zenner, G. M.; Crone, W. C. Communicating Science to the Public through a University–Museum Partnership. May, 743–750. Ellis, J. D.; Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. October, 1552–1554. Ellison, H. R. Enthalpy of Vaporization by Gas Chromatography: A Physical Chemistry Experiment. July, 1086–1088. Elrod, M. J. An Introduction to Chemical Kinetics (by Margaret Robson Wright). (BMR) January, 40–41. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. March, 466–467. Engelson, C.; O’Hara, P. B.; St. Peter, W. Turning on the Light: Lessons from Luminescence. January, 49– 52. Engelson, C.; O’Hara, P. B.; St. Peter, W. Turning on the Light. (JCE Classroom Activity) January, 48A– 48B. Ercolani, G. Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) November, 1703–1708. Erdik, E. Using Building-Block Puzzles To Practice Drawing Organic Mechanisms. September, 1325– 1326. Erickson, A. E.; Warnke, M. M.; Smith, E. T. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. July, 1082–1085. Eskestrand, S.; Ibañez, J. G.; Mayen-Mondragon, R.; Moran-Moran, M. T.; Alatorre-Ordaz, A.; Mattson, B. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) October, 1546–1548. Espenson, J. H. Concerning “A Reaction That Takes Place in Beakers but Not in Conical Flasks: A Catalysis-Related Demonstration” (re J. Chem. Educ. 2004, 81, 364). (Letter) April, 527. Esperón, P.; Vital, M. Testing for Ultraviolet Toxicity Using Fungi. June, 926–929. Esson, J. M.; Stevens-Truss, R.; Thomas, A. ServiceLearning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. August, 1168–1173.

Fahlman, B. D.; Williams, G. L.; Vohs, J. K.; Brege, J. J. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. May, 771–774. Fannin, H. B.; Masthay, M. B. Positive and Negative Temperatures in a Two-Level System: Thermodynamic and Statistical–Mechanical Perspectives. (ACL) June, 867–873. Farhoud, M.; Bentley, A. K.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. Authors: Know the Hazards, Please!—Author Reply (re J. Chem. Educ. 2005, 82, 765–768). (Letter) December, 1775. Farhoud, M.; Bentley, A. K.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. May, 765–768. Farinha, J. P.; Dionísio, M.; Diogo, H. P.; Moura-Ramos, J. J. Rotational Mobility in a Crystal Studied by Dielectric Relaxation Spectroscopy. An Experiment for the Physical Chemistry Laboratory. September, 1355– 1360. Farnham, J. M.; Sengupta, S. K.; Whitten, J. E. A Simple Low-Cost Lock-In Amplifier for the Laboratory. (TICI) September, 1399–1401. Farnsworth, F. V.; Karukstis, K. K.; Sienerth, K. D. Professional Infrastructure for Supporting the Undergraduate Research Enterprise on Campus. (CUR) June, 825–826. Farwell, M.; Booth, D.; Bateman, R. C., Jr.; Sirochman, R.; Richardson, D. C.; Richardson, J. S.; Weiner, S. W.; Putnam-Evans, C. Assessment of Molecular Construction in Undergraduate Biochemistry. December, 1854–1858. Faulkner, L. R. Good Chemical Measurements, Good Public Policies. (Commentary) February, 190–193. Fedosky, E. W.; Coleman, W. F. Interactive Spreadsheets in JCE WebWare. (JCE WebWare) August, 1263. Fedosky, E. W.; Coleman, W. F. More Interactive Spreadsheets in JCE WebWare. (JCE WebWare) September, 1423. Fedosky, E. W.; Coleman, W. F. Peer-Reviewed JCE WebWare. (JCE WebWare) April, 655–656. Fedosky, E. W.; Coleman, W. F. Peer-Reviewed JCE WebWare. (JCE WebWare) June, 960. Fedosky, E. W.; Coleman, W. F. Peer-Reviewed JCE WebWare. (JCE WebWare) October, 1584. Fedosky, E. W.; Coleman, W. F. Peer-Reviewed WebWare: Connected Chemistry. (JCE WebWare) March, 494. Fedosky, E. W.; Coleman, W. F. Teaching Molecular Symmetry with JCE WebWare. (JCE WebWare) November, 1741. Fehir, R. J., Jr.; Seeley, J. V.; Bull, A. W.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. February, 282–285. Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Da Silva, F. A.; Silva, C. M. Dynamic and Equilibrium Adsorption Experiments. June, 919–923. Fernandes, P. A.; Ramos, M. J. Computer Modeling and Research in the Classroom. July, 1021–1025. Ferriols-Pavico, J. M. Correction to “DeLorenzo’s Four Interesting Mysteries Verified” (re J. Chem. Educ. 2002, 79, 1217–1219). (Correction) August, 1151. Fidelio, G. D.; Celej, M. S.; Dassie, S. A. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) January, 85–92. Fine, L. W. Chemistry in the City: An Amendment (re J. Chem. Educ. 2003, 80, 850–856). (Letter) January, 38.

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H Haack, J. A.; Hutchison, J. E.; Kirchhoff, M. M.; Levy, I. J. Going Green: Lecture Assignments and Lab Experiences for the College Curriculum. (ACS) July, 974–976. Haim, L. Finding Chemical Anchors in the Kitchen. (CFK) February, 228–230. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. Surface pKa of Self-Assembled Monolayers. May, 779– 781. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. Growth Kinetics and Modeling of ZnO Nanoparticles. May, 775–778. Halmi, T. A.; Rizzo, M. M.; Jircitano, A. J.; Kociolek, M. G.; Magraw, J. A. Revisiting the Electric Pickle Demonstration. (TD) April, 545–546. Hamann, C. S.; Reed, N. A.; Rapp, R. D.; Artz, P. G. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. July, 1053–1054. Hamilton, T. D.; Frisˇ cˇ ic´ , T.; Papaefstathiou, G. S.; MacGillivray, L. R. A Template-Controlled Solid-State Reaction for the Organic Laboratory. November, 1679–1681. Hancock, M. T.; Wallace, J. R.; Lieberman, D. L.; Pinhas, A. R. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. August, 1229–1230. Hansen, T. V.; Sharpless, W. D.; Wu, P.; Lindberg, J. G. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. December, 1833–1836. Hanson, D. M.; Zielinski, T. J.; Harvey, E.; Sweeney, R. Quantum States of Atoms and Molecules. (JCE LivTexts) December, 1880. Hanson, M. P.; Weisshaar, D. E.; Earl, G. W.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. Instrumental Proficiency Program for Undergraduates. June, 898– 900. Hanson, R. M. Regarding Entropy Analysis (re J. Chem. Educ. 2004, 81, 1585–1594). (Letter) June, 839. Harmon, T. C.; Bendikov, T. A. A Sensitive Nitrate IonSelective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) March, 439–441. Harriman, J. E. On the Buoyancy of a Helium-Filled Balloon. February, 246–247. Harris, H. H. The Cartoon Guide to Chemistry (by Larry Gonick and Craig Criddle). (BMR) December, 1777–1778. Harris, H. H. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) April, 530–531. Harris, H. H.; Harris, M. E. Hands On Plastics (re J. Chem. Educ. 2004, 81, 1309, 1312A). (Letter) February, 209. Harris, H. H.; Pagni, R. M.; Frech, C. B.; Coppola, B. P.; Kovac, J. D. Summer Reading. June, 817–824. Harris, J.; Kehoe, S. News from Online: Toying with Chemistry. (ROJOnline) October, 1458–1460. Harris, M. E.; Harris, H. H. Hands On Plastics (re J. Chem. Educ. 2004, 81, 1309, 1312A). (Letter) February, 209. Harrison, J. F.; Lawson, D. B. Some Observations on Molecular Orbital Theory. August, 1205–1209. Hartman, J. S. An Industrial Chemistry Course That

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Optimizes the Value of Plant Tours. February, 234– 239. Haruta, M. E.; Pence, L. E.; Workman, H. J. A General Chemistry and Precalculus First-Year Interest Group (FIG): Effect on Retention, Skills, and Attitudes. January, 65–69. Harvey, D. T. Analytical Chemistry for Technicians, 3rd Edition (by John Kenkel). (BMR) January, 39. Harvey, D. T. Introduction to Protein and Peptide Analysis with Mass Spectrometry (by Fred Klink). (BMR) July, 1003–1004. Harvey, E.; Hanson, D. M.; Zielinski, T. J.; Sweeney, R. Quantum States of Atoms and Molecules. (JCE LivTexts) December, 1880. Harwood, W. S. The Inquiry Wheel, an Alternative to the Scientific Method—Author Reply (re J. Chem. Educ. 2004, 81, 791–792). (Letter) May, 682. Hawkes, S. J. Introductory Chemistry Needs a Revolution. ACS and IUPAC and AAAS and ICUC Should Lead It. (Commentary) November, 1615–1616. Hawkes, S. J. Reaction to “Chemistry Is Not a Laboratory Science”—Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) July, 997–998. Hawkes, S. J. Taking Issue with “Chemistry Is Not a Laboratory Science”—Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) July, 998–999. Haynes, C. L.; McFarland, A. D.; Van Duyne, R. P.; Godwin, H. A. Nanopatterning with Lithography. (JCE Classroom Activity) May, 768A–768B. Haynes, L. W.; Amburgey-Peters, J. C. The Addition of Bromine to 1,2-Diphenylethene. July, 1051–1052. Heil, K. M.; Voegel, P. D.; Quashnock, K. A. The Student-to-Student Chemistry Initiative: The Impact of Chemistry Demonstration Programs Presented by High School Students at Elementary Schools. April, 634–636. Heineman, W. R.; Paddock, J. R.; Maghasi, A. T.; Seliskar, C. J. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. September, 1370–1371. Heinhorst, S.; Cannon, G. Nature: Environmental Problems and New Hope for the Treatment of Malaria. (ROJNature) February, 186–188. Heinhorst, S.; Cannon, G. Nature: Small, Smaller, Smallest. A Pocket-size Device, Nano-size Electrical Conduits, and Amyloid Protein Fibril Structure. (ROJNature) November, 1599–1600. Heinson, C. D.; Williams, J. M.; Tinnerman, W. N.; Malloy, T. B. Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. May, 787–789. Heinz, W. F.; Hoh, J. H. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. May, 695–703. Heinze, G. E. ACS Presidential Election: Changing Chemical Education for the 21st Century. October, 1462. Helser, T. L. “In Yeast” Wordsearch. April, 552. Helser, T. L. Water Wordsearch. April, 551. Hendargo, H. C.; Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Cosand, A. C.; Fox, M. M. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. September, 1349–1354. Heppert, J. A.; Otto, W.; Larive, C. K.; Mason, S. L.; Bond-Robinson, J.; Ellis, J. D. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. October, 1552– 1554. Hergenrother, P. J.; Baudry, J. Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical–Computational Project. June, 890–894. Herman, C.; Casiday, R. E.; Deppe, R. K.; Gilbertson, M.; Spees, W. M.; Holten, D.; Frey, R. F. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) December, 1871–1879. Hernández, G.; Romero, A.; Suárez, M. F. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. August, 1234–1236. Hernández, M.; Dolz, M.; Delegido, J.; Casanovas, A. A Low-Cost Experiment on Newtonian and NonNewtonian Fluids. March, 445–447. Hernández-Brito, J. J.; Collado-Sánchez, C.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. February, 271–273. Herrera-Melián, J. A.; Araña Mesa, J. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red


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tween Lattice Energy and Lattice Enthalpy. June, 950– 952. Jenkins, J. D.; Rice, J. K.; Manley, C.; Sorel, E.; Smith, C. J. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. February, 265–268. Jennings, L. D.; Keller, S. W. An Interactive Classroom Activity Demonstrating Reaction Mechanisms and Rate-Determining Steps. (AA) April, 549–550. Jensen, W. B. The Origin of the 18-Electron Rule. (ASK) January, 28. Jensen, W. B. The Origin of the Bunsen Burner. (ASK) April, 518. Jensen, W. B. The Origin of the Name “Nylon”. (ASK) May, 676. Jensen, W. B. The Origins of Positive and Negative in Electricity. (ASK) July, 988. Jensen, W. B. The Origins of the Symbols A and Z for Atomic Weight and Number. (ASK) December, 1764. Jensen, W. B. The Symbolism of Chemical Equations. (ASK) October, 1461. Jeon, K.; Huffman, D.; Noh, T. The Effects of Thinking Aloud Pair Problem Solving on High School Students’ Chemistry Problem-Solving Performance and Verbal Interaction. (CER) October, 1558–1564. Jircitano, A. J.; Rizzo, M. M.; Halmi, T. A.; Kociolek, M. G.; Magraw, J. A. Revisiting the Electric Pickle Demonstration. (TD) April, 545–546. Johnson, A. R.; McQueen, T. M.; Rodolfa, K. T. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. March, 408–414. Johnston, M. V.; White, H. B., III.; Brown, S. D. Contemporary Moral Problems in Chemistry: Effect of Peer Presentations on Students’ Awareness of Science and Society Issues. (CER) October, 1570–1576. Joling, E. Heat and Temperature Conductivity of Baths—Author Reply (re J. Chem. Educ. 2002, 79, 1109). (Letter) March, 381. Jones-Wilson, T. M.; Burtch, E. A. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) April, 616–617. Jones, J. C. Greenhouse Gases and Non-gray Behavior. (Letter) June, 837. Jones, K. B.; Gellene, G. I. Understanding Attrition in an Introductory Chemistry Sequence Following Successful Completion of a Remedial Course. (CER) August, 1241–1245. José, T.; Williamson, V. M. Molecular Visualization in Science Education: An Evaluation of an NSF-Sponsored Workshop. (CER) June, 937–943.

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K Kahlert, H.; Scholz, F.; Steinhardt, T.; Pörksen, J. R.; Behnert, J. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. May, 782–786. Kalivas, J. H. Realizing Workplace Skills in Instrumental Analysis. June, 895–897. Kapoor, V. K. Use Correct Projection. (Letter) June, 838. Karol, P. J. The Kilogram and the Mole Redux. (Letter) February, 212. Karukstis, K. K. Communicating the Importance of Undergraduate Research to Legislators. (CUR) September, 1279–1280. Karukstis, K. K. Community-Based Research. A New Paradigm for Undergraduate Research in the Sciences. (CUR) January, 15–16. Karukstis, K. K. Showcasing Successful Practices That Enhance a Research-Supportive Undergraduate Curriculum. (CUR) October, 1440–1441. Karukstis, K. K.; Rowlett, R. On-Site Reviews and Institutes To Assess and Strengthen Undergraduate Departments and Programs. (CUR) April, 512–513. Karukstis, K. K.; Sienerth, K. D.; Farnsworth, F. V. Professional Infrastructure for Supporting the Undergraduate Research Enterprise on Campus. (CUR) June, 825–826. Karukstis, K. K.; Van Hecke, G. R.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. September, 1349–1354. Kauffman, G. B. More on Element 43. (Letter) September, 1310. Keeports, D. Equilibrium Constants and Water Activity. (Letter) July, 999. Kehoe, S.; Harris, J. News from Online: Toying with Chemistry. (ROJOnline) October, 1458–1460.

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Kittredge, K. W.; White, L. L. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) July, 1055–1056. Kjonaas, R. A.; Mattingly, S. P. Acid-Catalyzed Isomerization of Carvone to Carvacrol. December, 1813– 1814. Klein, H.; Woermann, D. Displacements of Brownian Particles in Terms of Marian von Smoluchowski’s Heuristic Model. November, 1642–1644. Knipp, R.; Williams, J. P.; Van Natta, S. The Fizz-Keeper: A Useful Science Tool. October, 1454–1457. Knudsen, G. A.; Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Seeley, S. K. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. February, 282–285. Koby, L.; Ningappa, J. B.; Dakessian, M.; Cuccia, L. A. Chiral Crystallization of Ethylenediamine Sulfate. July, 1043–1045. Kociolek, M. G.; Rizzo, M. M.; Halmi, T. A.; Jircitano, A. J.; Magraw, J. A. Revisiting the Electric Pickle Demonstration. (TD) April, 545–546. Koether, M. C.; Rodgers, J. Analysis of Phosphoric Acid Content in Popular Carbonated Drinks (re J. Chem. Educ. 1996, 73, 1173–1174). (Letter) October, 1471. Kosinski, J.; Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Sinton, M. A Networked NMR Spectrometer: Configuring a Shared Instrument. September, 1342–1344. Kovac, J. D. The Literature of Chemistry: Recommended Titles for Undergraduate Chemistry Library Collections (by Judith A. Douville). (BMR) August, 1153. Kovac, J. D. Make Your Mark in Science. Creativity, Presenting, Publishing, and Patents. A Guide for Young Scientists (by Claus Ascheron and Angela Kickuth). (BMR) September, 1313. Kovac, J. D. Van Nostrand’s Encyclopedia of Chemistry, Fifth Edition (edited by Glenn D. Considine). (BMR) June, 840–841. Kovac, J. D. The Way of the Teacher (by J. M. Haile). (BMR) October, 1476. Kovac, J. D.; Pagni, R. M.; Frech, C. B.; Coppola, B. P.; Harris, H. H. Summer Reading. June, 817–824. Kozarich, J. W. ACS Presidential Election: Chemical Education on a Global Scale—To the Elysian Fields. October, 1464. Kreuz, B.; Bazzi, A.; Wuokila, J.; Maqboul, A. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. March, 435–438. Krill, A.; Bendinskas, K.; DiJiacomo, C.; Vitz, E. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. July, 1068–1070. Kruse, R. A.; Roehrig, G. H. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) August, 1246–1250. Kustin, K.; Ross, E. W. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. September, 1413–1417. Kwan, E. E. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) July, 1026–1030.

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L Lacy, J. E. Equilibria That Shift Left upon Addition of More Reactant. August, 1192–1193. Lagowski, J. J. “Old” Technology Is Still Useful. (Letter) March, 381. Lagowski, J. J. Systemic Approach to Teaching and Learning. (Letter) February, 211. Laguna, M.; Cerrada, E. Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. April, 630–633. Laing, M. Properties of the Lanthanide Metals: Correlations and Discontinuities (re J. Chem. Educ. 2005, 82, 473–483). (Letter) November, 1623. Landolt, R. G.; Daley, J. M. A Substitute for “Bromine in Carbon Tetrachloride”. January, 120–121. Larive, C. K.; Otto, W.; Mason, S. L.; Bond-Robinson, J.; Heppert, J. A.; Ellis, J. D. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. October, 1552– 1554. Laufer, J. S.; Stelick, S. J.; Alger, W. H.; Waldron, A. M.; Batt, C. A. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. September, 1361–1364. Lawson, D. B.; Harrison, J. F. Some Observations on Molecular Orbital Theory. August, 1205–1209.

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Leber, P. A.; Brigandi, L. M.; Yoder, C. H. Synthesis and Analysis of Copper Hydroxy Double Salts. November, 1662. Leber, P. A.; Powers, D. C.; Higgs, A. T.; Obley, M. L.; Hess, K. R.; Yoder, C. H. Analysis of Natural Buffer Systems and the Impact of Acid Rain. An Environmental Project for First-Year Chemistry Students. February, 274–277. Lederer, R. No Problems with Q. (Letter) August, 1149. Lee, J. Gas Permeability of Polymers—Author Reply (re J. Chem. Educ. 2005, 82, 288). (Letter) October, 1472. Lee, J.; Yoo, H.; Park, J. S.; Hwang, K.; Kim, J. S. Applying Chemical Potential and Partial Pressure Concepts To Understand the Spontaneous Mixing of Helium and Air in a Helium-Inflated Balloon. February, 288–290. Lee, S. T.; Lin, H.; Treagust, D. F. Chemistry Teachers’ Estimations of Their Students’ Learning Achievement. (CER) October, 1565–1569. Leenson, I. A. Sublimation of Iodine at Various Pressures. Mutlipurpose Experiments in Inorganic and Physical Chemistry. February, 241–245. Lenzi, M. K.; Silva, F. M.; Lima, E. L.; Pinto, J. C.; Cunningham, M. F. Low-Cost Thermocouple SignalConditioning Module. (CET) January, 122–123. Lever, L. S.; Whisnant, D. M.; Howe, J. J. Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) February, 334. Levinger, N. E.; Wally, L. M.; Grainger, D. W. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) October, 1489–1495. Levy, I. J.; Haack, J. A.; Hutchison, J. E.; Kirchhoff, M. M. Going Green: Lecture Assignments and Lab Experiences for the College Curriculum. (ACS) July, 974–976. Lewis, J. E.; Lewis, S. E. Departing from Lectures: An Evaluation of a Peer-Led Guided Inquiry Alternative. (CER) January, 135–139. Lewis, J. E.; Lewis, S. E. The Same or Not the Same: Equivalence as an Issue in Educational Research. (CER) September, 1408–1412. Lewis, S. E.; Lewis, J. E. Departing from Lectures: An Evaluation of a Peer-Led Guided Inquiry Alternative. (CER) January, 135–139. Lewis, S. E.; Lewis, J. E. The Same or Not the Same: Equivalence as an Issue in Educational Research. (CER) September, 1408–1412. Li, H.; Van Hecke, G. R.; Karukstis, K. K.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. September, 1349–1354. Lieberman, D. L.; Wallace, J. R.; Hancock, M. T.; Pinhas, A. R. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. August, 1229–1230. Lim, K. F. Bond Length Dependence on Quantum States as Shown by Spectroscopy. January, 145–149. Lim, K. F.; Coleman, W. F. The Effect of Anharmonicity on Diatomic Vibration: A Spreadsheet Simulation. (JCE WebWare) August, 1263–1264. Lima, E. L.; Lenzi, M. K.; Silva, F. M.; Pinto, J. C.; Cunningham, M. F. Low-Cost Thermocouple SignalConditioning Module. (CET) January, 122–123. Lin, H.; Lee, S. T.; Treagust, D. F. Chemistry Teachers’ Estimations of Their Students’ Learning Achievement. (CER) October, 1565–1569. Lin, L.; Xiao, D.; Yuan, H.; Choi, M. M.; Chan, W. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) August, 1231–1233. Lindberg, J. G.; Sharpless, W. D.; Wu, P.; Hansen, T. V. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. December, 1833–1836. Lindsay, S. Single-Molecule Electronic Measurements with Metal Electrodes. May, 727–733. Liotta, L. J.; Almeida, C. A. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. December, 1794–1799. Lisensky, G. C.; Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Nickel, A. L.; Crone, W. C. Authors: Know the Hazards, Please!—Author Reply (re J. Chem. Educ. 2005, 82, 765–768). (Letter) December, 1775. Lisensky, G. C.; Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Nickel, A. L.; Crone, W. C. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. May, 765–768.


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Mabbott, G. A.; Vitha, M. F.; Carr, P. W. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. June, 901–902. Mabrouk, S. T. Making Usable, Quality Opaque or Transparent Soap. October, 1534–1537. MacFarland, D. K.; Gorodetzer, R. Rotor-shaped Cyclopentadienyltetraphenylcyclobutadienecobalt. An Advanced Inorganic Experiment. January, 109–110. MacGillivray, L. R.; Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S. A Template-Controlled SolidState Reaction for the Organic Laboratory. November, 1679–1681. Maddox, L.; Hale, P. S.; Shapter, J. G.; Gooding, J. J. Surface pKa of Self-Assembled Monolayers. May, 779– 781. Maddox, L.; Hale, P. S.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. Growth Kinetics and Modeling of ZnO Nanoparticles. May, 775–778. Maghasi, A. T.; Paddock, J. R.; Heineman, W. R.; Seliskar, C. J. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. September, 1370–1371. Magnasco, V. Correction to “A Model for the Chemical Bond” (re J. Chem. Educ. 2004, 81, 427–435). (Correction) September, 1311. Magraw, J. A.; Rizzo, M. M.; Halmi, T. A.; Jircitano, A. J.; Kociolek, M. G. Revisiting the Electric Pickle Demonstration. (TD) April, 545–546. Malati, M. A.; Hoppé, J. I. Spectrophotometric Determination of the Hole Concentration in the Superconductor YBa2Cu3O7᎑x: An Undergraduate Experiment. February, 299–301. Malloy, T. B.; Heinson, C. D.; Williams, J. M.; Tinnerman, W. N. Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. May, 787–789. Manley, C.; Rice, J. K.; Jenkins, J. D.; Sorel, E.; Smith, C. J. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. February, 265–268.

Mannschreck, A.; Kiesswetter, R. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. July, 1034–1039. Maqboul, A.; Bazzi, A.; Kreuz, B.; Wuokila, J. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. March, 435–438. Marcotte, R. E. Demonstrating Energy Migration in Coupled Oscillators: A Central Concept in the Theory of Unimolecular Reactions. (TD) October, 1530– 1531. Martínez López, M.; González-Ferrer, G. Hydrolysis of Pentaamminechlorocobalt(III): A Unified Mechanistic View. November, 1671–1673. Martorell, I.; Arasasingham, R. D.; Taagepera, M.; Potter, F.; Lonjers, S. Assessing the Effect of Web-Based Learning Tools on Student Understanding of Stoichiometry Using Knowledge Space Theory. (TECH) August, 1251–1262. Masini, J. C.; Penteado, J. C.; Angnes, L.; Oliveira, P. C. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. July, 1074–1078. Mason, D. S. ACS’s Adopt a Teacher Program. (EHST) March, 345. Mason, D. S. Chemistry Teacher Connections. (EHST) June, 809. Mason, D. S. Gedanken Experiments. (EHST) November, 1593. Mason, D. S. JCE: The Leader of Change. (EHST) December, 1753. Mason, D. S. Learner-Centered Education. (EHST) August, 1113. Mason, D. S. Light Up Your Life. (EHST) January, 9. Mason, D. S. The Tried and True with a Cyclic Twist. (EHST) April, 505. Mason, D. S. The World According to Nanotechnology. (EHST) May, 665. Mason, S. L.; Otto, W.; Larive, C. K.; Bond-Robinson, J.; Heppert, J. A.; Ellis, J. D. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. October, 1552– 1554. Massa, L. Quantal Density Functional Theory (by Viraht Sahni). (BMR) October, 1476–1478. Masthay, M. B.; Fannin, H. B. Positive and Negative Temperatures in a Two-Level System: Thermodynamic and Statistical–Mechanical Perspectives. (ACL) June, 867–873. Mata, E. G.; Pellegrinet, S. C. A Set of Hands-On Exercises on Conformational Analysis. January, 73–74. Matsumoto, P. S. The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems. (2AP) March, 406–407. Matsumoto, P. S. Reactions to “The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems” —Author Reply (J. Chem. Educ. 2005, 82, 406–407). (Letter) August, 1150. Matsumoto, P. S. Trends in Ionization Energy of Transition-Metal Elements. November, 1660–1661. Matthews, M. S. The Joy of Chemistry: The Amazing Science of Familiar Things (by Cathy Cobb and Monty L. Fetterolf ). (BMR) October, 1475. Matthews, M. S. Polymer Chemistry: Introduction to an Indispensable Science (by David M. Teegarden). (BMR) February, 213–214. Mattingly, S. P.; Kjonaas, R. A. Acid-Catalyzed Isomerization of Carvone to Carvacrol. December, 1813– 1814. Mattson, B.; Ibañez, J. G.; Mayen-Mondragon, R.; Moran-Moran, M. T.; Alatorre-Ordaz, A.; Eskestrand, S. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) October, 1546–1548. Mayen-Mondragon, R.; Ibañez, J. G.; Moran-Moran, M. T.; Alatorre-Ordaz, A.; Mattson, B.; Eskestrand, S. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) October, 1546–1548. Maynard, J. H.; Bain, R.; Jacobsen, J. J.; Moore, J. W. Chemistry Comes Alive!, Volume 7. Abstract of Special Issue 32, a CD-ROM of Flames and Explosions. (JCE Software) July, 1102–1104. McCarthy, S. M.; Gordon-Wylie, S. W. A Greener Approach for Measuring Colligative Properties. (GRN) January, 116–119. McFarland, A. D.; Haynes, C. L.; Van Duyne, R. P.; Godwin, H. A. Nanopatterning with Lithography.

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(JCE Classroom Activity) May, 768A–768B. McInerny, W. J. A Simple Reduction Process for the Normal Vibrational Modes Occurring in Linear Molecules. January, 140–144. McKenzie, L. C.; Huffman, L. M.; Hutchison, J. E. The Evolution of a Green Chemistry Laboratory Experiment: Greener Brominations of Stilbene. (GRN) February, 306–310. McQuade, J.; Pelter, M. W. Brewing Science in the Chemistry Laboratory: A “Mashing” Investigation of Starch and Carbohydrates. December, 1811–1812. McQueen, T. M.; Johnson, A. R.; Rodolfa, K. T. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. March, 408–414. Meagher, N. E.; Bowens, D. B.; Clark, B. S. A Quantitative Examination of Multiple Methods for Standardizing a Dilute Hydrochloric Acid Solution in an Undergraduate Chemistry Laboratory. March, 428–434. Medhurst, L. J. FTIR Determination of Pollutants in Automobile Exhaust: An Environmental Chemistry Experiment Comparing Cold-Start and Warm-Engine Conditions. February, 278–281. Meek, T. L.; Garner, L. D. Electronegativity and the Bond Triangle. February, 325–333. Megehee, E. G.; Hyslop, A. G.; Rosso, R. J. Interlaboratory Collaborations in the Undergraduate Setting. September, 1345–1348. Meier, M. A.; Hoogenboom, R.; Schubert, U. S. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. November, 1693–1696. Meints, C.; Burke, K. A. Meeting Report: Chemistry Everywhere. A Brief Report on the 18th Biennial Conference on Chemical Education. January, 17–20. Mena-Brito, R.; Ibañez, J. G.; Fregoso-Infante, A. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) October, 1549–1551. Micali, N.; Alibrandi, G.; D’Aliberti, S.; Coppolino, S.; Villari, A. Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) March, 442– 444. ⁄ Micha lowski, T.; Rymanowski, M.; Pietrzyk, A. Nontypical Brønsted’s Acids and Bases. March, 470–472. Middlecamp, C. H.; Bergo, C. H.; Shanbhag, V. ACS National Meeting. Program for the Division of Chemical Education: Washington, DC, August 28– September 1, 2005. August, 1123–1130. Middlecamp, C. H.; Nickel, A. L. Doing Science and Asking Questions II: An Exercise That Generates Questions. August, 1181–1186. Middlecamp, C. H.; Stone, K.; Muzzi, C. M. ACS National Meeting. Program for the Division of Chemical Education: San Diego, March 12–17, 2005. March, 355–361. Mie, A.; Reimann, C. T.; Nilsson, C.; Cohen, A. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. August, 1215–1218. Mikasen, M. L.; Griep, M. A. Based on a True Story: Using Movies as Source Material for General Chemistry Reports. October, 1501–1503. Miller, J.; Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) November, 1728–1735. Mills, N. S.; Spence, J. D.; Bushey, M. M. Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. August, 1226–1228. Mingjie, Z.; Qichao, Y. Chinese Students’ Opinions about “What is the Biggest Problem in Chemistry?”. (Letter) February, 210. Mink, L. M.; Saucedo, L. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) May, 790. Missen, R. W.; Smith, W. R. A Note on Dalton’s Law: Myths, Facts, and Implementation. August, 1197– 1201. Mohan, R. S.; Baru, A. R. The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. November, 1674–1675. Molloy, J. L.; Alter, K. P.; Niemeyer, E. D. Spectrophotometric Determination of the Dissociation Constant of an Acid–Base Indicator Using a Mathematical Deconvolution Technique. November, 1682–1685.

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N Nahir, T. M.; Sommers, T. S. Temperature Dependence of Viscosities of Common Carrier Gases. July, 1089– 1090. Nazarenko, A. Y.; Nazarenko, N. A. Analog Spectrophotometers in the Digital Age: Data Acquisition on a Budget. (CET) February, 294–296. Nazarenko, N. A.; Nazarenko, A. Y. Analog Spectrophotometers in the Digital Age: Data Acquisition on a Budget. (CET) February, 294–296. Neppel, K.; Oliver-Hoyo, M. T.; Queen, C.; Reed, N. A Closer Look at Acid–Base Olfactory Titrations. April, 607–610. Nettles, C.; Shaw, R.; Severin, A.; Balfour, M. Diels– Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. April, 625–629. Newton, T. A. A Convenient Method for Dispensing Organometallic Reagents. (CET) June, 936. Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) July, 1059–1064. Nichols, C. J.; Taylor, M. R. The Sharpless Asymmetric Dihydroxylation in the Organic Chemistry Majors Laboratory. January, 105–108. Nickel, A. L.; Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Crone, W. C. Authors: Know the Hazards, Please!—Author Reply (re J. Chem. Educ. 2005, 82, 765–768). (Letter) December, 1775. Nickel, A. L.; Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Crone, W. C. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. May, 765–768. Nickel, A. L.; Middlecamp, C. H. Doing Science and Asking Questions II: An Exercise That Generates Questions. August, 1181–1186. Niece, B. K. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) October, 1521–1522. Niemeyer, E. D.; Alter, K. P.; Molloy, J. L. Spectrophotometric Determination of the Dissociation Constant of an Acid–Base Indicator Using a Mathematical Deconvolution Technique. November, 1682–1685. Nilsson, C.; Reimann, C. T.; Mie, A.; Cohen, A. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. August, 1215–1218. Ningappa, J. B.; Koby, L.; Dakessian, M.; Cuccia, L. A. Chiral Crystallization of Ethylenediamine Sulfate. July, 1043–1045. Noh, T.; Jeon, K.; Huffman, D. The Effects of Thinking Aloud Pair Problem Solving on High School Students’ Chemistry Problem-Solving Performance and Verbal Interaction. (CER) October, 1558–1564. Nordell, K. J.; Boatman, E. M.; Lisensky, G. C. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. November, 1697–1699. Novak, I. Microscopic Description of Le Châtelier Principle. August, 1190–1191.

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D.; van Bronswijk, W. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. March, 453–455. Ogden, M. I.; Blyth, K. M.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. Reduction of Ilmenite with Charcoal. March, 456–459. Oliveira, P. C.; Penteado, J. C.; Angnes, L.; Masini, J. C. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. July, 1074–1078. Oliver-Hoyo, M. T.; Allen, D. Attitudinal Effects of a Student-Centered Active Learning Environment. (CER) June, 944–949. Oliver-Hoyo, M. T.; Neppel, K.; Queen, C.; Reed, N. A Closer Look at Acid–Base Olfactory Titrations. April, 607–610. Oliver-Hoyo, M. T.; Switzer, W. L., III. Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) February, 251–254. Ophardt, C. E.; Applebee, M. S.; Losey, E. N. Chemical Demonstrations as the Laboratory Component in Nonscience Majors Courses. An Outreach-Targeted Approach. August, 1174–1177. Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) February, 257–259. Ostrom, K. F.; Nicaise, O. J.; Dalke, B. J. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) July, 1059–1064. Otto, W.; Larive, C. K.; Mason, S. L.; Bond-Robinson, J.; Heppert, J. A.; Ellis, J. D. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. October, 1552– 1554.

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(FIG): Effect on Retention, Skills, and Attitudes. January, 65–69. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. July, 1074–1078. Pérez-Peña, J.; Collado-Sánchez, C.; Hernández-Brito, J. J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. February, 271–273. Pesterfield, L. L. Metal–Ligand Bonding (by Rob Janes and Elaine Moore). (BMR) August, 1153–1154. Peters, A. W. Teaching Biochemistry at a Minority-Serving Institution: An Evaluation of the Role of Collaborative Learning as a Tool for Science Mastery. April, 571–574. Peticolas, W.; Rosenberg, R. M. Correction to “Henry’s Law: A Retrospective” (re J. Chem. Educ. 2004, 81, 1647–1652). (Correction) January, 38. Petracco, M. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) August, 1161–1167. Pfister, R.; Volkov, V. Cotton Effect in Copper–Proline Complexes in the Visible Region. November, 1663– 1666. Phillips, D. N.; Blyth, K. M.; Mullings, L. R.; Pritchard, D.; van Bronswijk, W. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. November, 1667–1670. Phillips, D. N.; Blyth, K. M.; Ogden, M. I.; Pritchard, D.; van Bronswijk, W. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. March, 453–455. Phillips, D. N.; Blyth, K. M.; Ogden, M. I.; Pritchard, D.; van Bronswijk, W. Reduction of Ilmenite with Charcoal. March, 456–459. Piekos, R.; Teodorczyk, J. Spectacular Breeding of Crystals on Silica Gel. March, 448–449. Pienta, N. J. Faculty Guide for Moving Teaching and Learning to the Web, Second Edition (by Judith V. Boettcher and Rita-Marie Conrad). (BMR) July, 1000. Pienta, N. J.; Franklin, S. J.; Fry, M. D. 8:31 a.m. Belly Flop: Attitude Adjustment through Weekly Feature Molecules. June, 847–850. ⁄ Pietrzyk, A.; Micha lowski, T.; Rymanowski, M. Nontypical Brønsted’s Acids and Bases. March, 470–472. Pinhas, A. R.; Wallace, J. R.; Lieberman, D. L.; Hancock, M. T. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. August, 1229–1230. Pinto, G. Chemistry of Moth Repellents. (POC) September, 1321–1324. Pinto, G. Stoichiometry of Calcium Medicines. (RSA) October, 1509–1512. Pinto, J. C.; Lenzi, M. K.; Silva, F. M.; Lima, E. L.; Cunningham, M. F. Low-Cost Thermocouple SignalConditioning Module. (CET) January, 122–123. Pittman, F. A.; Casey, R. E. Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. February, 260–264. Plunkett, K. N.; Berkowski, K. L.; Yu, Q.; Moore, J. S. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. September, 1365– 1369. Poler, J. C.; Hovick, J. W. Misconceptions in Sign Conventions: Flipping the Electric Dipole Moment. June, 889. Pörksen, J. R.; Scholz, F.; Steinhardt, T.; Kahlert, H.; Behnert, J. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. May, 782–786. Portugal, I.; Fernandes, D. L.; Xavier, A. M.; Da Silva, F. A.; Silva, C. M. Dynamic and Equilibrium Adsorption Experiments. June, 919–923. Poshusta, R. D. Data Analysis (Damped Oscillations) Using the Genfit Function. (JCE SymMath) July, 1101. Potter, F.; Arasasingham, R. D.; Taagepera, M.; Martorell, I.; Lonjers, S. Assessing the Effect of WebBased Learning Tools on Student Understanding of Stoichiometry Using Knowledge Space Theory. (TECH) August, 1251–1262. Pounds, A. J. The Chemical Bond: A Fundamental Quantum–Mechanical Picture (Springer Series in Chemical Physics) (by Tadamassa Shida). (BMR) July, 1000–1001. Powers, D. C.; Higgs, A. T.; Obley, M. L.; Leber, P. A.; Hess, K. R.; Yoder, C. H. Analysis of Natural Buffer Systems and the Impact of Acid Rain. An Environmental Project for First-Year Chemistry Students. February, 274–277.

Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. January, 93–95. Prieto, K. R.; Ramos, L. A.; Cavalheiro, É. T.; Cavalheiro, C. S. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. December, 1815–1819. Pritchard, D.; Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; van Bronswijk, W. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. November, 1667–1670. Pritchard, D.; Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; van Bronswijk, W. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. March, 453–455. Pritchard, D.; Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; van Bronswijk, W. Reduction of Ilmenite with Charcoal. March, 456–459. Prypsztejn, H. E. Chemiluminescent Oscillating Demonstrations: The Chemical Buoy, the Lighting Wave, and the Ghostly Cylinder. (TD) January, 53–54. Puignou, L.; Llauradó, M. An Experimental Introduction to Interlaboratory Exercises in Analytical Chemistry. July, 1079–1081. Purser, G. H. Comments on Purser’s Article: “Lewis Structures are Models for Predicting Molecular Structure, Not Electronic Structure”—Author Reply (re J. Chem. Educ. 1999, 76, 1013–1018). (Letter) April, 528–529. Putnam-Evans, C.; Booth, D.; Bateman, R. C., Jr.; Sirochman, R.; Richardson, D. C.; Richardson, J. S.; Weiner, S. W.; Farwell, M. Assessment of Molecular Construction in Undergraduate Biochemistry. December, 1854–1858.

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of Chemistry and Chemical Engineering. February, 201. Reich, H. Introducing JCE ChemInfo: Organic. (JCE ChemInfo) March, 495–496. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. August, 1215–1218. Resto, W.; Báez-Galib, R.; Colón-Cruz, H.; Rubin, M. R. Chem-2-Chem: A One-to-One Supportive Learning Environment for Chemistry. (CER) December, 1859–1863. Retcofsky, H. L. Early Spectroscopy and the Balmer Lines of Hydrogen—Author Reply (re J. Chem. Educ. 2003, 80, 1003). (Letter) March, 380. Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E.; Smith, C. J. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. February, 265–268. Rice, R. E. The ACS Prize Essay Contest. (FPI) December, 1765–1767. Rich, R. L. Are Some Elements More Equal Than Others? (Commentary) December, 1761–1763. Richardson, D. C.; Booth, D.; Bateman, R. C., Jr.; Sirochman, R.; Richardson, J. S.; Weiner, S. W.; Farwell, M.; Putnam-Evans, C. Assessment of Molecular Construction in Undergraduate Biochemistry. December, 1854–1858. Richardson, J. S.; Booth, D.; Bateman, R. C., Jr.; Sirochman, R.; Richardson, D. C.; Weiner, S. W.; Farwell, M.; Putnam-Evans, C. Assessment of Molecular Construction in Undergraduate Biochemistry. December, 1854–1858. Richmond, G. L. COAChing Women To Succeed in Academic Careers in the Chemical Sciences. March, 351–353. Rioux, F. Single-Slit Diffraction and the Uncertainty Principle. August, 1210. Rizzo, M. M.; Halmi, T. A.; Jircitano, A. J.; Kociolek, M. G.; Magraw, J. A. Revisiting the Electric Pickle Demonstration. (TD) April, 545–546. Robbins, D. M.; Sheppard, K. Chemistry, The Central Science? The History of the High School Science Sequence. (SSC) April, 561–566. Robbins, M. E.; Schoenfisch, M. H. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) October, 1486–1488. Rodgers, J.; Koether, M. C. Analysis of Phosphoric Acid Content in Popular Carbonated Drinks (re J. Chem. Educ. 1996, 73, 1173–1174). (Letter) October, 1471. Rodolfa, K. T.; Johnson, A. R.; McQueen, T. M. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. March, 408–414. Rodríguez-López, M.; Carrasquillo, A., Jr. Improving Conceptions in Analytical Chemistry: ciVi = cfVf. September, 1327–1328. Roehrig, G. H.; Kruse, R. A. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) August, 1246–1250. Romero, A.; Hernández, G.; Suárez, M. F. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. August, 1234–1236. Romero, J. R.; Galembeck, S. E.; Caramori, G. F. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. December, 1800–1804. Rosan, A. M. The Organic Chemistry of Biological Pathways (by John E. McMurry and Tadhg P. Begley). (BMR) November, 1626–1628. Rose, N. L.; Palcic, M. M.; Evans, S. V. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) December, 1846– 1853. Rosenberg, R. M.; Peticolas, W. Correction to “Henry’s Law: A Retrospective” (re J. Chem. Educ. 2004, 81, 1647–1652). (Correction) January, 38. Rosenstein, I. J. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) April, 652–654. Ross, E. W.; Kustin, K. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. September, 1413–1417. Rosso, R. J.; Megehee, E. G.; Hyslop, A. G. Interlaboratory Collaborations in the Undergraduate Setting. September, 1345–1348. Rossoni, E.; Ruekberg, B. An Improved Preparation of 2,4-Dinitrophenylhydrazine Reagent. (Letter) September, 1310. Rowlett, R.; Karukstis, K. K. On-Site Reviews and Institutes To Assess and Strengthen Undergraduate De-

Q Qichao, Y.; Mingjie, Z. Chinese Students’ Opinions about “What is the Biggest Problem in Chemistry?”. (Letter) February, 210. Quashnock, K. A.; Voegel, P. D.; Heil, K. M. The Student-to-Student Chemistry Initiative: The Impact of Chemistry Demonstration Programs Presented by High School Students at Elementary Schools. April, 634–636. Queen, C.; Neppel, K.; Oliver-Hoyo, M. T.; Reed, N. A Closer Look at Acid–Base Olfactory Titrations. April, 607–610. Quinn, R. P.; Wright, S. W.; Folger, M. R. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) November, 1633–1635.

R Raines, B. J.; Gomez, C. G.; Williams, K. R. Posters– Old Tool, New Tech. (FPI) August, 1118–1119. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. December, 1815–1819. Ramos, M. J.; Fernandes, P. A. Computer Modeling and Research in the Classroom. July, 1021–1025. Range, K.; Salter, G.; Salter, C. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. February, 297–298. Rapp, R. D.; Reed, N. A.; Hamann, C. S.; Artz, P. G. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. July, 1053–1054. Raston, C. L.; Cave, G. W. Green Chemistry Laboratory: Benign Synthesis of 4,6-Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) March, 468– 469. Rebolledo, F.; Liz, R. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B. A Collaborative Experiment for Advanced Undergraduates. June, 930–933. Reed, N. A.; Rapp, R. D.; Hamann, C. S.; Artz, P. G. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. July, 1053–1054. Reed, N.; Neppel, K.; Oliver-Hoyo, M. T.; Queen, C. A Closer Look at Acid–Base Olfactory Titrations. April, 607–610. Reeves, J. H. Meeting Reports: International Congress


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Sârbu, C.; Horovitz, O. Characterization and Classification of Lanthanides by Multivariate-Analysis Methods. March, 473–483. Sarquis, A. M.; Sarquis, J. L. Toys in the Classroom. October, 1450–1453. Sarquis, J. L.; Greer, S. ACS National Meeting. CHED Events: San Diego. March, 365. Sarquis, J. L.; Sarquis, A. M. Toys in the Classroom. October, 1450–1453. Saucedo, L.; Mink, L. M. Microscale Synthesis and 1H NMR Analysis of Zn II and Ni II Tetraphenylporphyrins. (ML) May, 790. Sawyer, D. T. Conceptual Considerations in Molecular Science. (Commentary) July, 985–987. Schaak, R. E.; Abrams, N. M. Self-Assembled Colloidal Crystals: Visualizing Atomic Crystal Chemistry Using Microscopic Analogues of Inorganic Solids. March, 450–452. Scharberg, M. A. Meeting Report: Teaching High School Chemistry as a Second Career. Summary of Presidential Symposium. September, 1281–1285. Schlager, I. R.; Friedli, A. C. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) July, 1017– 1020. Schlamadinger, D. E.; Esteb, J. J.; Hohman, J. N.; Wilson, A. M. A Solvent-Free Baeyer–Villiger Lactonization for the Undergraduate Organic Laboratory: Synthesis of γ-t-Butyl-ε-caprolactone. December, 1837–1838. Schmidt, J. A.; Getzler, Y. D.; Coates, G. W. Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. April, 621–624. Schmitz, G. What Is a Reaction Rate? July, 1091–1093. Schoenfisch, M. H.; Robbins, M. E. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) October, 1486–1488. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. May, 782–786. Schraw, G.; Brooks, D. W.; Crippen, K. J. PerformanceRelated Feedback: The Hallmark of Efficient Instruction. April, 641–644. Schraw, G.; Brooks, D. W.; Crippen, K. J. Using an Interactive, Compensatory Model of Learning To Improve Chemistry Teaching. April, 637–640. Schubert, U. S.; Hoogenboom, R.; Meier, M. A. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. November, 1693–1696. Schultz, E. Fully Exploiting the Potential of the Periodic Table through Pattern Recognition. November, 1649– 1657. Schultz, E. The Nature of Hydrogen Bonding. (JCE Classroom Activity) March, 400A–400B. Schultz, E. Simple Dynamic Models for Hydrogen Bonding Using Velcro-Polarized Molecular Models. March, 401–405. Schuman, M. J.; Vitz, E. The q/T Paradox: Which “Contains More Heat”, a Cup of Coffee at 95 °C or a Liter of Icewater? (TD) June, 856–860. Scudiero, L.; Hipps, K. W. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. May, 704–711. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. February, 282–285. Seeley, S. K.; Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. February, 282–285. Seeman, J. I. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. October, 1577–1583. Seliskar, C. J.; Paddock, J. R.; Maghasi, A. T.; Heineman, W. R. Making and Using a Sensing Polymeric Material for Cu 2+ . An Introduction to Polymers and Chemical Sensing. September, 1370–1371. Seney, C. S.; Sinclair, K. V.; Bright, R. M.; Momoh, P. O.; Bozeman, A. D. Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. December, 1826–1829. Sengupta, S. K.; Farnham, J. M.; Whitten, J. E. A Simple Low-Cost Lock-In Amplifier for the Laboratory. (TICI) September, 1399–1401. Séquin, M. Exploration of the Chemistry of Plants: A General Education Course. (IC) December, 1787– 1790.

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S Sacks, L. J. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) July, 997. Sady, M. B. I Screen, You Screen, We All Screen for Phenolics. (JCE Classroom Activity) December, 1808A– 1808B. Saecker, M. E. National Chemistry Week 2005: Cover Feature. Soap Films and the Joy of Bubbles. October, 1447. Sáez, V.; Frías-Ferrer, A.; González-García, J.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. September, 1395–1398. Sajan, S.; Taylor, A. T. Testing for Genetically Modified Foods Using PCR. April, 597–598. Salin, E.; Antler, M.; Wilczek-Vera, G. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. March, 425– 427. Salter, C.; Salter, G.; Range, K. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. February, 297–298. Salter, G.; Range, K.; Salter, C. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. February, 297–298. Samet, C.; Higgins, P. J. Napoleon’s Buttons: Teaching the Role of Chemistry in History. October, 1496–1500. Sánchez-Sánchez, C. M.; Frías-Ferrer, A.; GonzálezGarcía, J.; Sáez, V.; Expósito, E.; Montiel, V.; Aldaz, A.; Walsh, F. C. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. September, 1395–1398. Sanger, M. J. Evaluating Students’ Conceptual Understanding of Balanced Equations and Stoichiometric Ratios Using a Particulate Drawing. (CER) January, 131–134.

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Sereda, G. Comparative Methylation of 1,8-Dihydroxy9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. December, 1839–1840. Sereda, G. A Simple and Easy-To-Learn Chart of the Main Classes of Inorganic Compounds and Their Acid–Base Reactions. November, 1645–1648. Severin, A.; Shaw, R.; Balfour, M.; Nettles, C. Diels– Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. April, 625–629. Shanbhag, V.; Middlecamp, C. H.; Bergo, C. H. ACS National Meeting. Program for the Division of Chemical Education: Washington, DC, August 28– September 1, 2005. August, 1123–1130. Shapter, J. G.; Hale, P. S.; Maddox, L.; Gooding, J. J. Surface pKa of Self-Assembled Monolayers. May, 779– 781. Shapter, J. G.; Hale, P. S.; Maddox, L.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. Growth Kinetics and Modeling of ZnO Nanoparticles. May, 775–778. Sharma, S. K.; Windisch, C. F., Jr.; Exarhos, G. J. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. June, 916–918. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. December, 1833–1836. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. Diels– Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. April, 625–629. Sheppard, K.; Robbins, D. M. Chemistry, The Central Science? The History of the High School Science Sequence. (SSC) April, 561–566. Shibata, J. H. Polymers (Oxford Chemistry Primers No. 85) (by David Walton and J. Phillip Lorimer). (BMR) April, 532–534. Shimizu, K. D.; Rushton, G. T.; Furmanski, B. D. Plastic Antibodies: Molecular Recognition with Imprinted Polymers. An Introductory Polymer Chemistry Laboratory Investigation. September, 1374–1377. Shine, T. D.; Glagovich, N. M. Organic Spectroscopy Laboratory: Utilizing IR and NMR in the Identification of an Unknown Substance. September, 1382– 1384. Ship, N. J.; Zamble, D. B. Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) December, 1805–1808. Sienerth, K. D.; Karukstis, K. K.; Farnsworth, F. V. Professional Infrastructure for Supporting the Undergraduate Research Enterprise on Campus. (CUR) June, 825–826. Sigalas, M. P.; Charistos, N. D.; Tsipis, C. A. 3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) November, 1741–1742. Sigurdsson, S. T.; Patterson, J. Use of Enzymes in Organic Synthesis: Reduction of Ketones by Baker’s Yeast Revisited. July, 1049–1050. Silva, C. M.; Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Da Silva, F. A. Dynamic and Equilibrium Adsorption Experiments. June, 919–923. Silva, F. M.; Lenzi, M. K.; Lima, E. L.; Pinto, J. C.; Cunningham, M. F. Low-Cost Thermocouple SignalConditioning Module. (CET) January, 122–123. Silverstein, T. P. Chemistry as General Education (re J. Chem. Educ. 2004, 81, 54–57). (Letter) June, 838. Silverstein, T. P. The Reaction Quotient (Q) IS Useful After All (re J. Chem. Educ. 2005, 82, 406–407). (Letter) August, 1149. Simmons, B.; Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) November, 1728–1735. Sinclair, K. V.; Seney, C. S.; Bright, R. M.; Momoh, P. O.; Bozeman, A. D. Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. December, 1826–1829. Sinton, M.; Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Kosinski, J. A Networked NMR Spectrometer: Configuring a Shared Instrument. September, 1342–1344. Sirochman, R.; Booth, D.; Bateman, R. C., Jr.;


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Richardson, D. C.; Richardson, J. S.; Weiner, S. W.; Farwell, M.; Putnam-Evans, C. Assessment of Molecular Construction in Undergraduate Biochemistry. December, 1854–1858. Smith, A. A.; Smith, C. A. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) April, 560A–560B. Smith, C. A.; Diaz, L. Investigating the Photoelectric Effect Using LEDs and a Modular Spectroscope. June, 906–908. Smith, C. A.; Smith, A. A. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) April, 560A–560B. Smith, C. J.; Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. February, 265–268. Smith, D. K. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) March, 393–400. Smith, D. R.; Msimanga, H. Z.; Elkins, P.; Tata, S. K. A Chemometrics Module for an Undergraduate Instrumental Analysis Chemistry Course. March, 415– 424. Smith, D. W. Valence, Covalence, Hypervalence, Oxidation State, and Coordination Number. August, 1202–1204. Smith, E. T.; Warnke, M. M.; Erickson, A. E. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. July, 1082–1085. Smith, P. M. Instant Notes in Inorganic Chemistry, Second Edition (by P. A. Cox). (BMR) February, 213. Smith, W. R.; Missen, R. W. A Note on Dalton’s Law: Myths, Facts, and Implementation. August, 1197– 1201. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. April, 601–603. Sobral, A. J. Synthesis of Meso-Octamethylporphyrinogen: An Undergraduate Laboratory Mini-Scale Experiment in Organic Heterocyclic Chemistry. (ML) April, 618–620. Soletta, I.; Branca, M. Thermal Expansion: Using Calculator-Based Laboratory Technology To Observe the Anomalous Behavior of Water. April, 613–615. Soltzberg, L. J.; Brown, V. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate (re J. Chem. Educ. 2001, 78, 775–777). (Letter) April, 526. Somer, F. L., Jr. Nanophysics and Nanotechnology: An Introduction to Modern Concepts in Nanoscience (by Edward L. Wolf ). (BMR) November, 1625–1626. Sommers, T. S.; Nahir, T. M. Temperature Dependence of Viscosities of Common Carrier Gases. July, 1089– 1090. Sorel, E.; Rice, J. K.; Jenkins, J. D.; Manley, C.; Smith, C. J. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. February, 265–268. Spees, W. M.; Herman, C.; Casiday, R. E.; Deppe, R. K.; Gilbertson, M.; Holten, D.; Frey, R. F. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) December, 1871–1879. Spence, J. D.; Mills, N. S.; Bushey, M. M. Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. August, 1226–1228. Spence, T. G.; Birdwhistell, K. R. M&M Orange—Author Reply (re J. Chem. Educ. 2002, 79, 847). (Letter) February, 209. Splittgerber, A. G.; Kelly, B. S. The Pythagorean Theorem and the Solid State. May, 756–761. Spraggins, J. M., II.; Williams, T. R. Is It Necessary To Dry Primary Standards before Analysis? February, 311–312. St. Antoine, C. C.; Powers, J. L.; Andrews, C. S.; Jain, S. S.; Bevilacqua, V. L. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. January, 93–95. St. Peter, W.; O’Hara, P. B.; Engelson, C. Turning on the Light: Lessons from Luminescence. January, 49– 52. St. Peter, W.; O’Hara, P. B.; Engelson, C. Turning on the Light. (JCE Classroom Activity) January, 48A– 48B. Stanger, R.; Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Waddoups, G. L.; Moore,

M. S.; Swan, R.; Allen, R.; Bodily, G. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) November, 1728–1735. Starkey, R.; Brown, Z. Circular Birefringence and Circular Dichroism Simulation. (JCE SymMath) July, 1100. Steehler, J. K. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) September, 1315–1316. Steehler, J. K. Exploring Chemical Analysis, 3rd Edition (by Daniel C. Harris). (BMR) May, 685. Steinberg, S. M.; Emerson, D. W.; Titus, R. L. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. March, 466–467. Steinhardt, T.; Scholz, F.; Kahlert, H.; Pörksen, J. R.; Behnert, J. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. May, 782–786. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. September, 1361–1364. Stephens, C. E. Taking Issue with “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) July, 998. Stevens-Truss, R.; Esson, J. M.; Thomas, A. ServiceLearning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. August, 1168–1173. Stieff, M. Connected Chemistry—A Novel Modeling Environment for the Chemistry Classroom. March, 489–493. Stieff, M. Connected Chemistry. (JCE WebWare) March, 494. Stone, K.; Middlecamp, C. H.; Muzzi, C. M. ACS National Meeting. Program for the Division of Chemical Education: San Diego, March 12–17, 2005. March, 355–361. Streit, B. R.; Geiger, D. K. Structure and Bonding in Group 14 Congeners of Ethene: DFT Calculations in the Inorganic Chemistry Laboratory. (MMEE) January, 111–115. Suárez, M. F.; Romero, A.; Hernández, G. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. August, 1234–1236. Sun, G.; Worley, S. D. Chemistry of Durable and Regenerable Biocidal Textiles. (POC) January, 60–64. Sunderlin, L. S.; Ryzhov, V.; Keller, L. M.; Gaillard, E. R. Measuring Gas-Phase Basicities of Amino Acids Using an Ion Trap Mass Spectrometer. A Physical Chemistry Laboratory Experiment. July, 1071–1073. Supalo, C. Techniques To Enhance Instructors’ Teaching Effectiveness with Chemistry Students Who Are Blind or Visually Impaired. October, 1513–1518. Swan, R.; Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Allen, R.; Bodily, G. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) November, 1728–1735. Sweeney, R.; Hanson, D. M.; Zielinski, T. J.; Harvey, E. Quantum States of Atoms and Molecules. (JCE LivTexts) December, 1880. Switzer, W. L., III.; Oliver-Hoyo, M. T. Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) February, 251–254. Szalay, P.; Zeller, M.; Hunter, A. D. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. October, 1555– 1557.

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Dihydroxylation in the Organic Chemistry Majors Laboratory. January, 105–108. Tellinghuisen, J. First-Order or Second-Order Kinetics? A Monte Carlo Answer. November, 1709–1714. Tellinghuisen, J. Global Least-Squares Analysis of the IR Rotation–Vibration Spectrum of HCl. January, 150– 156. Tellinghuisen, J. Understanding Least Squares through Monte Carlo Calculations. January, 157–166. Teodorczyk, J.; Piekos, R. Spectacular Breeding of Crystals on Silica Gel. March, 448–449. Thayer, J. S. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. November, 1721–1727. Themelis, D. G.; Economou, A.; Tzanavaras, P. D. Sequential-Injection Analysis: Principles, Instrument Construction, and Demonstration by a Simple Experiment. (TICI) December, 1820–1822. Thomas, A.; Esson, J. M.; Stevens-Truss, R. ServiceLearning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. August, 1168–1173. Thompson, R. Q. Encyclopedia of Analytical Science, Second Edition (edited by Paul Worsfold, Alan Townshend, and Colin Poole). (BMR) September, 1313–1314. Tibell, L.; Bergendahl, C. Boosting Complex Learning by Strategic Assessment and Course Design. (CER) April, 645–651. Tietz, D.; Bracken, J. D. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. May, 762–764. Timofeev, J.; Williams, K. R.; Adhyaru, B.; Blankenship, M. K. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. June, 924–925. Tinnerman, W. N.; Heinson, C. D.; Williams, J. M.; Malloy, T. B. Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. May, 787–789. Tinoco, A. D.; Howard, D. L.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II OxygenEvolving Complex. May, 791–794. Titus, R. L.; Emerson, D. W.; Steinberg, S. M. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. March, 466–467. Toby, S. Does a Photochemical Reaction Have a Kinetic Order? (re J. Chem. Educ. 2003, 80, 1074–1077). (Letter) January, 37. Todebush, P. M.; Geiger, F. M. Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. October, 1542–1545. Torres-Padrón, M. E.; Collado-Sánchez, C.; HernándezBrito, J. J.; Pérez-Peña, J.; Gelado-Caballero, M. D. Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. February, 271–273. Treadwell, E. M.; Black, T. H. An Engaging Illustration of the Physical Differences among Menthol Stereoisomers. July, 1046–1048. Treagust, D. F.; Lin, H.; Lee, S. T. Chemistry Teachers’ Estimations of Their Students’ Learning Achievement. (CER) October, 1565–1569. Treptow, R. S. E = mc 2 for the Chemist: When Is Mass Conserved? November, 1636–1641. Trofimenko, S. Polypyrazolylborates: Scorpionates. (POC) November, 1715–1720. Trujillo, C. A. A Modified Demonstration of the Catalytic Decomposition of Hydrogen Peroxide. (TD) June, 855. Tsipis, C. A.; Charistos, N. D.; Sigalas, M. P. 3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) November, 1741–1742. Tuchler, M. Fundamentals of Quantum Chemistry (Complementary Science Series), Second Edition (by James E. House). (BMR) July, 1002–1003. Tuchler, M. Quantum Mechanics: A Conceptual Approach (by Hendrik F. Hameka). (BMR) January, 41– 43. Turro, N. J. Constructivism and Information Technology at Columbia: A Journey from the Wilderness to the Promised Land. 2004 George C. Pimentel Award, sponsored by Dow Chemical Co. (Award Address) September, 1292–1301. Tye, S.; Gordon, J. S. A LED Microtiter Plate Reader. June, 903–905.

T Taagepera, M.; Arasasingham, R. D.; Potter, F.; Martorell, I.; Lonjers, S. Assessing the Effect of WebBased Learning Tools on Student Understanding of Stoichiometry Using Knowledge Space Theory. (TECH) August, 1251–1262. Tao, N. Electrochemical Fabrication of Metallic Quantum Wires. May, 720–726. Tata, S. K.; Msimanga, H. Z.; Elkins, P.; Smith, D. R. A Chemometrics Module for an Undergraduate Instrumental Analysis Chemistry Course. March, 415– 424. Taylor, A. T.; Sajan, S. Testing for Genetically Modified Foods Using PCR. April, 597–598. Taylor, M. R.; Nichols, C. J. The Sharpless Asymmetric


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Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) November, 1728–1735. Wagner, H. J. Early Spectroscopy and the Balmer Lines of Hydrogen (re J. Chem. Educ. 2003, 80, 1003). (Letter) March, 380. Wagner, H. J. Some Footnotes on the History of Masurium. (Letter) September, 1309. Waldron, A. M.; Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Batt, C. A. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. September, 1361–1364. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. August, 1229–1230. Wally, L. M.; Levinger, N. E.; Grainger, D. W. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) October, 1489–1495. Walsh, F. C.; Frías-Ferrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. September, 1395–1398. Wang, H. Application of ChemDraw NMR Tool: Correlation of Program-Generated 13C Chemical Shifts and pKa Values of para-Substituted Benzoic Acids. September, 1340–1341. Warnke, M. M.; Erickson, A. E.; Smith, E. T. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. July, 1082–1085. Warren, S. E.; Alonso, D. E. NMR Analysis of Unknowns: An Introduction to 2D NMR Spectroscopy. September, 1385–1386. Warren, S. E.; Alonso, D. E.; Mutch, G. W.; Wong, P.; Barot, B.; Kosinski, J.; Sinton, M. A Networked NMR Spectrometer: Configuring a Shared Instrument. September, 1342–1344. Watkins, J. J.; Zhang, B.; White, H. S. Electrochemistry at Nanometer-Scaled Electrodes. May, 712–719. Weinecke, A.; Ryzhov, V. Fundamentals of Biomolecule Analysis by Electrospray Ionization Mass Spectrometry. An Instrumental Analysis Laboratory Experiment. January, 99–102. Weiner, S. W.; Booth, D.; Bateman, R. C., Jr.; Sirochman, R.; Richardson, D. C.; Richardson, J. S.; Farwell, M.; Putnam-Evans, C. Assessment of Molecular Construction in Undergraduate Biochemistry. December, 1854–1858. Weinhold, F. A. Comments on Purser’s Article: “Lewis Structures are Models for Predicting Molecular Structure, Not Electronic Structure” (re J. Chem. Educ. 1999, 76, 1013–1018). (Letter) April, 527–528. Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. Instrumental Proficiency Program for Undergraduates. June, 898– 900. Wesemann, J. Undergraduate Transitions: Enhancing Student Success. (ACS) February, 196–198. Whisnant, D. M.; Lever, L. S.; Howe, J. J. Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) February, 334. White, C. Concerning “A Reaction That Takes Place in Beakers but Not in Conical Flasks: A Catalysis-Related Demonstration”—Author Reply (re J. Chem. Educ. 2004, 81, 364). (Letter) April, 527. White, H. B., III.; Brown, S. D.; Johnston, M. V. Contemporary Moral Problems in Chemistry: Effect of Peer Presentations on Students’ Awareness of Science and Society Issues. (CER) October, 1570–1576. White, H. S.; Watkins, J. J.; Zhang, B. Electrochemistry at Nanometer-Scaled Electrodes. May, 712–719. White, L. L.; Kittredge, K. W. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) July, 1055–1056. Whitten, J. E.; Ahn, H. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. June, 909–911. Whitten, J. E.; Sengupta, S. K.; Farnham, J. M. A Simple Low-Cost Lock-In Amplifier for the Laboratory. (TICI) September, 1399–1401. Wilczek-Vera, G.; Antler, M.; Salin, E. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. March, 425– 427. Williams, C. K.; Cass, M. E.; Rzepa, H. S.; Rzepa, D. R. An Animated Interactive Overview of Molecular Symmetry. (JCE WebWare) November, 1742–1743.

Tzanavaras, P. D.; Economou, A.; Themelis, D. G. Sequential-Injection Analysis: Principles, Instrument Construction, and Demonstration by a Simple Experiment. (TICI) December, 1820–1822.

V Van Arnum, S. D. An Approach Towards Teaching Green Chemistry Fundamentals. (GRN) November, 1689– 1692. van Bronswijk, W.; Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. November, 1667–1670. van Bronswijk, W.; Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. March, 453–455. van Bronswijk, W.; Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D. Reduction of Ilmenite with Charcoal. March, 456–459. Van Duyne, R. P.; Haynes, C. L.; McFarland, A. D.; Godwin, H. A. Nanopatterning with Lithography. (JCE Classroom Activity) May, 768A–768B. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. September, 1349–1354. Van Natta, S.; Williams, J. P.; Knipp, R. The Fizz-Keeper: A Useful Science Tool. October, 1454–1457. Van Ryswyk, H. Writing-Intensive Multimedia Projects in the Instrumental Methods Course. January, 70–72. Villari, A.; Alibrandi, G.; D’Aliberti, S.; Coppolino, S.; Micali, N. Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) March, 442–444. Vincent, J. B.; Woski, S. A. Cytochrome c: A Biochemistry Laboratory Course. August, 1211–1214. Viste, A. E.; Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Kintner, R. R.; Duffy-Matzner, J. L. Instrumental Proficiency Program for Undergraduates. June, 898– 900. Vital, M.; Esperón, P. Testing for Ultraviolet Toxicity Using Fungi. June, 926–929. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. June, 901–902. Vitz, E. Amino Acid Complementarity: A Biochemical Exemplar of Stoichiometry for General and Health Sciences Chemistry. July, 1013–1016. Vitz, E.; Bendinskas, K.; DiJiacomo, C.; Krill, A. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. July, 1068–1070. Vitz, E.; Schuman, M. J. The q/T Paradox: Which “Contains More Heat”, a Cup of Coffee at 95 °C or a Liter of Icewater? (TD) June, 856–860. Voegel, P. D.; Quashnock, K. A.; Heil, K. M. The Student-to-Student Chemistry Initiative: The Impact of Chemistry Demonstration Programs Presented by High School Students at Elementary Schools. April, 634–636. Voelcker, N. H.; Hale, P. S.; Maddox, L.; Shapter, J. G.; Ford, M. J.; Waclawik, E. R. Growth Kinetics and Modeling of ZnO Nanoparticles. May, 775–778. Vohs, J. K.; Williams, G. L.; Brege, J. J.; Fahlman, B. D. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. May, 771–774. Volkov, V.; Pfister, R. Cotton Effect in Copper–Proline Complexes in the Visible Region. November, 1663– 1666. Vrettos, J. S.; Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Allen, B. C. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II OxygenEvolving Complex. May, 791–794. Vrtacˇnik, M.; Gros, N. A Small-Scale Low-Cost Gas Chromatograph. (CET) February, 291–293.

W Waclawik, E. R.; Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J. Growth Kinetics and Modeling of ZnO Nanoparticles. May, 775–778. Waddell, T. G. Organic Chemistry: An Intermediate Text, Second Edition (by Robert V. Hoffman). (BMR) February, 215–216. Waddoups, G. L.; Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. The

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Williams, C. K.; Cass, M. E.; Rzepa, H. S.; Rzepa, D. R. The Use of the Free, Open-Source Program Jmol To Generate an Interactive Web Site To Teach Molecular Symmetry. November, 1736–1740. Williams, G. L.; Vohs, J. K.; Brege, J. J.; Fahlman, B. D. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. May, 771–774. Williams, J. M.; Heinson, C. D.; Tinnerman, W. N.; Malloy, T. B. Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. May, 787–789. Williams, J. P.; Van Natta, S.; Knipp, R. The Fizz-Keeper: A Useful Science Tool. October, 1454–1457. Williams, K. R. Balloon–Toy of Many Colors. (FPI) October, 1448–1449. Williams, K. R. Nitrogen: It Always Needs a Fix. (FPI) February, 194–195. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. June, 924–925. Williams, K. R.; Raines, B. J.; Gomez, C. G. Posters– Old Tool, New Tech. (FPI) August, 1118–1119. Williams, T. R.; Spraggins, J. M., II. Is It Necessary To Dry Primary Standards before Analysis? February, 311–312. Williamson, V. M.; José, T. Molecular Visualization in Science Education: An Evaluation of an NSF-Sponsored Workshop. (CER) June, 937–943. Wilson, A. M.; Esteb, J. J.; Hohman, J. N.; Schlamadinger, D. E. A Solvent-Free Baeyer–Villiger Lactonization for the Undergraduate Organic Laboratory: Synthesis of γ-t-Butyl-ε-caprolactone. December, 1837–1838. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. June, 916–918. Wink, D. J. The Inquiry Wheel, an Alternative to the Scientific Method (re J. Chem. Educ. 2004, 81, 791– 792). (Letter) May, 682. Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. Quantum Dots: An Experiment for Physical or Materials Chemistry. November, 1700–1702. Wiseman, F. L. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. December, 1841. Witter, A. E. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC– MS. October, 1538–1541. Wladkowski, B. D.; Young, M. D.; Borjemscaia, N. C. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. June, 912–915. Woermann, D.; Klein, H. Displacements of Brownian Particles in Terms of Marian von Smoluchowski’s Heuristic Model. November, 1642–1644. Wong, P.; Alonso, D. E.; Mutch, G. W.; Warren, S. E.; Barot, B.; Kosinski, J.; Sinton, M. A Networked NMR Spectrometer: Configuring a Shared Instrument. September, 1342–1344. Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) November, 1728– 1735. Workman, H. J.; Pence, L. E.; Haruta, M. E. A General Chemistry and Precalculus First-Year Interest Group (FIG): Effect on Retention, Skills, and Attitudes. January, 65–69. Worley, S. D.; Sun, G. Chemistry of Durable and Regenerable Biocidal Textiles. (POC) January, 60–64. Woski, S. A.; Vincent, J. B. Cytochrome c: A Biochemistry Laboratory Course. August, 1211–1214. Wright, S. M. Introducing Safety Topics Using a Student-Centered Approach. (ST) October, 1519–1520. Wright, S. W. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) April, 542–544. Wright, S. W. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) November, 1648A–1648B. Wright, S. W.; Folger, M. R.; Quinn, R. P. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) November, 1633–1635. Wu, P.; Sharpless, W. D.; Hansen, T. V.; Lindberg, J. G. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles


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Author Index • Volume 82 • 2005 from Azides and Terminal Acetylenes. December, 1833–1836. Wuokila, J.; Bazzi, A.; Kreuz, B.; Maqboul, A. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. March, 435–438. Wustholz, K. L.; Baar, M. R. Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3dicarboximide. September, 1393–1394. Wustholz, K. L.; Baar, M. R.; Russell, C. E. The Ethylene Ketal Protecting Group Revisited: The Synthesis of 4-Hydroxy-4,4-diphenyl-2-butanone. July, 1057– 1058.

X Xavier, A. M.; Fernandes, D. L.; Portugal, I.; Da Silva, F. A.; Silva, C. M. Dynamic and Equilibrium Adsorption Experiments. June, 919–923. Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) August, 1231–1233.

Y Yoder, C. H.; Brigandi, L. M.; Leber, P. A. Synthesis and Analysis of Copper Hydroxy Double Salts. November, 1662. Yoder, C. H.; Powers, D. C.; Higgs, A. T.; Obley, M. L.; Leber, P. A.; Hess, K. R. Analysis of Natural Buffer Systems and the Impact of Acid Rain. An Environmental Project for First-Year Chemistry Students. February, 274–277. Yoo, H.; Lee, J.; Park, J. S.; Hwang, K.; Kim, J. S. Applying Chemical Potential and Partial Pressure Concepts To Understand the Spontaneous Mixing of Helium and Air in a Helium-Inflated Balloon. February, 288–290. Young, J. A. Ammonium Chloride. (CLIP) November, 1618.

www.JCE.DivChed.org/Journal/Search/ Yuan, H.; Xiao, D.; Lin, L.; Choi, M. M.; Chan, W. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) August, 1231–1233.

Young, J. A. Ammonium Dichromate. (CLIP) November, 1617. Young, J. A. Ammonium Thiocyanate. (CLIP) November, 1619. Young, J. A. Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) December, 1775. Young, J. A. Benzaldehyde. (CLIP) December, 1770. Young, J. A. Benzene. (CLIP) December, 1769. Young, J. A. Benzidine. (CLIP) December, 1768. Young, J. A. Cadmium. (CLIP) April, 521. Young, J. A. Catechol. (CLIP) January, 31. Young, J. A. Copper(I) Chloride. (CLIP) July, 991. Young, J. A. Copper(II) Acetate Monohydrate. (CLIP) July, 990. Young, J. A. Copper(II) Nitrate Trihydrate. (CLIP) March, 375. Young, J. A. Hydrogen Sulfide. (CLIP) February, 202. Young, J. A. Lithium. (CLIP) April, 520. Young, J. A. Luminol (3-Aminophthalhydrazide). (CLIP) October, 1465. Young, J. A. Magnesium Oxide. (CLIP) May, 677. Young, J. A. Magnesium Sulfate. (CLIP) May, 678. Young, J. A. Mercury. (CLIP) February, 203. Young, J. A. Nickel(II) Carbonate. (CLIP) June, 830. Young, J. A. Nickel(II) Oxide. (CLIP) June, 831. Young, J. A. Poly(Vinyl Alcohol). (CLIP) October, 1466. Young, J. A. Potassium Hydroxide. (CLIP) September, 1304. Young, J. A. Potassium Nitrate. (CLIP) September, 1305. Young, J. A. Sodium Borate Hydrogen Peroxidate Trihydrate. (CLIP) January, 30. Young, J. A. Zinc (dust and bulk). (CLIP) August, 1143. Young, J. A. Zinc Nitrate Hexahydrate. (CLIP) August, 1144. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. June, 912–915. Yu, Q.; Berkowski, K. L.; Plunkett, K. N.; Moore, J. S. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. September, 1365–1369.

Z Zamble, D. B.; Ship, N. J. Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) December, 1805–1808. Zanger, M.; Moyna, G. Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. September, 1390–1392. Zare, R. N. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) May, 673–675. Zeller, M.; Szalay, P.; Hunter, A. D. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. October, 1555–1557. Zenner, G. M.; Payne, A. C.; deProphetis, W. A.; Ellis, A. B.; Derenne, T. G.; Crone, W. C. Communicating Science to the Public through a University–Museum Partnership. May, 743–750. Zhang, B.; Watkins, J. J.; White, H. S. Electrochemistry at Nanometer-Scaled Electrodes. May, 712–719. Zielinski, T. J. Introducing JCE LivTexts: Physical Chemistry. (JCE LivTexts) December, 1880. Zielinski, T. J. Symbolic Mathematics Documents Large and Small. (JCE SymMath) July, 1099–1100. Zielinski, T. J. SymMath, Fair Use, and Additions to the Collection. (JCE SymMath) January, 172–174. Zielinski, T. J.; Hanson, D. M.; Harvey, E.; Sweeney, R. Quantum States of Atoms and Molecules. (JCE LivTexts) December, 1880. Zielinski, T. J.; Long, G. R. JCE LrnComOnline: Mission Statement. (JCE LrnCom Online) February, 335. Zingales, R. From Masurium to Trinacrium: The Troubled Story of Element 43. February, 221–227. Zoller, U. Education in Environmental Chemistry: Setting the Agenda and Recommending Action. A Workshop Report Summary. August, 1237–1240.

JCE Online Index

Try it, find it! JCE Online Index. Everyone with Internet access can get to the online index of the entire 82 years of the Journal. Access is fast and free, bringing a wealth of information to your desktop. Bookmark it. http://www.JCE.DivCHED.org/Journal/Search/index.html

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Volume 82 • 2005 • Subject Index

Subject Index Addition Reactions The Subject Index is organized by keywords and feature columns. Feature columns are indicated by italic type. Articles are listed by title, (feature column), author(s), month, and page number(s). A key to the feature column abbreviations is on page 1882.

The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051– 1052. Diels–Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. April, 625–629. Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. Baar, M. R.; Wustholz, K. L. September, 1393–1394.

Acids / Bases

Administrative Issues

Analysis of Natural Buffer Systems and the Impact of Acid Rain. An Environmental Project for First-Year Chemistry Students. Powers, D. C.; Higgs, A. T.; Obley, M. L.; Leber, P. A.; Hess, K. R.; Yoder, C. H. February, 274–277. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. Bracken, J. D.; Tietz, D. May, 762–764. Application of ChemDraw NMR Tool: Correlation of Program-Generated 13C Chemical Shifts and pKa Values of para-Substituted Benzoic Acids. Wang, H. September, 1340–1341. A Closer Look at Acid–Base Olfactory Titrations. Neppel, K.; Oliver-Hoyo, M. T.; Queen, C.; Reed, N. April, 607–610. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. Baar, M. R.; Cerrone-Szakal, A. L. July, 1040–1042. Equilibrium Constants and Water Activity. (Letter) Keeports, D. July, 999. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) Kwan, E. E. July, 1026–1030. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. ⁄ Nontypical Brønsted’s Acids and Bases. Micha lowski, T.; Rymanowski, M.; Pietrzyk, A. March, 470–472. On Teaching Ionic Activity Effects: What, When, and Where? de Levie, R. June, 878–884. Presumptive and Confirmatory Drug Tests. Anderson, C. December, 1809–1810. A Quantitative Examination of Multiple Methods for Standardizing a Dilute Hydrochloric Acid Solution in an Undergraduate Chemistry Laboratory. Meagher, N. E.; Bowens, D. B.; Clark, B. S. March, 428–434. A Simple and Easy-To-Learn Chart of the Main Classes of Inorganic Compounds and Their Acid–Base Reactions. Sereda, G. November, 1645–1648. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. Johnson, A. R.; McQueen, T. M.; Rodolfa, K. T. March, 408–414. Spectrophotometric Determination of the Dissociation Constant of an Acid–Base Indicator Using a Mathematical Deconvolution Technique. Alter, K. P.; Molloy, J. L.; Niemeyer, E. D. November, 1682–1685. Surface pKa of Self-Assembled Monolayers. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. May, 779– 781. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. May, 782–786. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. Salter, G.; Range, K.; Salter, C. February, 297–298.

2005 ACS Academic Employment Initiative. March, 367. ACS National Meeting. CHED Events: San Diego. Sarquis, J. L.; Greer, S. March, 365. ACS National Meeting. CHED Events: Washington, DC. Greer, S. August, 1136–1137. ACS National Meeting. Program for the Division of Chemical Education: San Diego, March 12–17, 2005. Middlecamp, C. H.; Stone, K.; Muzzi, C. M. March, 355–361. ACS National Meeting. Program for the Division of Chemical Education: Washington, DC, August 28– September 1, 2005. Middlecamp, C. H.; Bergo, C. H.; Shanbhag, V. August, 1123–1130. ACS Presidential Election: Changing Chemical Education for the 21st Century. Heinze, G. E. October, 1462. ACS Presidential Election: Chemical Education on a Global Scale—To the Elysian Fields. Kozarich, J. W. October, 1464. ACS Presidential Election: It’s Time To Re-Ignite Our Commitment to Science and Technology!. Hunt, C. T. October, 1463. Committee Reports, March 2005. (DivCHED) July, 978–984. Committee Reports, November 2004. (DivCHED) January, 21–27. Community of Effort. (Editorial) Moore, J. W. March, 343. Constructivism and Information Technology at Columbia: A Journey from the Wilderness to the Promised Land. 2004 George C. Pimentel Award, sponsored by Dow Chemical Co.. (Award Address) Turro, N. J. September, 1292–1301. Editor’s Note about “The Kilogram and the Mole Redux”. (Letter) Moore, J. W. February, 212. Education of Teachers for Excellence. (Editorial) Moore, J. W. August, 1111. Freeing Information. (Editorial) Moore, J. W. January, 7. Global Leadership in Science and Technology. (Editorial) Moore, J. W. June, 807. Good Chemical Measurements, Good Public Policies. (Commentary) Faulkner, L. R. February, 190–193. JCE LrnComOnline: Mission Statement. (JCE LrnCom Online) Zielinski, T. J.; Long, G. R. February, 335. JCE Online Store Grand Opening. (JCE Online) Holmes, J. L. January, 176. Keeping Chemistry and Chemists Safe. (Editorial) Moore, J. W. July, 967. Meeting Reports: International Congress of Chemistry and Chemical Engineering. Reeves, J. H. February, 201. News & Announcements. January, 33–35; February, 205–207; March, 377–379; April, 523–525; May, 679–681; June, 833–835; July, 993–995; August, 1145–1148; September, 1306–1308; October, 1467– 1470; November, 1620–1622; December, 1770– 1773. Professional Infrastructure for Supporting the Undergraduate Research Enterprise on Campus. (CUR) Karukstis, K. K.; Sienerth, K. D.; Farnsworth, F. V. June, 825–826. Science Days: An Interdisciplinary Outreach Program. (CFK) Flynn, N. E. October, 1483–1485. Showcasing Successful Practices That Enhance a Research-Supportive Undergraduate Curriculum. (CUR) Karukstis, K. K. October, 1440–1441. SymMath, Fair Use, and Additions to the Collection. (JCE SymMath) Zielinski, T. J. January, 172–174. Undergraduate Transitions: Enhancing Student Success. (ACS) Wesemann, J. February, 196–198.

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Underground Existence of Research in Chemistry in Two-Year College Programs. (2YC3) Gaglione, O. G. November, 1613–1614.

Advanced Chemistry Classroom and Laboratory Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) Kwan, E. E. July, 1026–1030. Positive and Negative Temperatures in a Two-Level System: Thermodynamic and Statistical–Mechanical Perspectives. (ACL) Masthay, M. B.; Fannin, H. B. June, 867–873. Self-Consistent Field Calculations on Atoms Using Excel. (ACL) Hoffman, G. G. September, 1418–1422.

Agricultural Chemistry Nitrogen: It Always Needs a Fix. (FPI) Williams, K. R. February, 194–195. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167. Research Advances: Dendritic Macromer Replaces Sutures in Cataract Surgery; Promising Polymer Therapy for Paralyzed Dogs; Compound in Smoke Provides the Spark for Germination. (ROJResAdv) King, A. G. March, 346–348. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598.

Alcohols The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) White, L. L.; Kittredge, K. W. July, 1055– 1056.

Aldehydes / Ketones The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. Improved Preparation of 2,4-Dinitrophenylhydrazine Reagent. (Letter) Ruekberg, B.; Rossoni, E. September, 1310. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) White, L. L.; Kittredge, K. W. July, 1055– 1056.

Alkanes / Cycloalkanes Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. Further Analysis of Boiling Points of Small Molecules, CHwFxClyBrz. Beauchamp, G. December, 1842–1845. A Methane Balloon Inflation Chamber. (TD) Czerwinski, C. J.; Cordes, T. J. February, 248–250. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. June, 912–915. A Set of Hands-On Exercises on Conformational Analysis. Pellegrinet, S. C.; Mata, E. G. January, 73–74. A Small-Scale Low-Cost Gas Chromatograph. (CET) Gros, N.; Vrtacˇnik, M. February, 291–293. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681.


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Subject Index • Volume 82 • 2005 Alkenes The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051– 1052. Cis and Trans Isomers of Cycloalkenes. Barrows, S. E.; Eberlein, T. H. September, 1334–1339. Diels–Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. April, 625–629. Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. Baar, M. R.; Wustholz, K. L. September, 1393–1394. A Substitute for “Bromine in Carbon Tetrachloride". Daley, J. M.; Landolt, R. G. January, 120–121. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681. Understanding Rotation about a C=C Double Bond. Barrows, S. E.; Eberlein, T. H. September, 1329– 1333.

Alkynes Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836.


Analytical Chemistry

8:31 a.m. Belly Flop: Attitude Adjustment through Weekly Feature Molecules. Franklin, S. J.; Pienta, N. J.; Fry, M. D. June, 847–850. The Art and Science of Light. An Interdisciplinary Teaching and Learning Experience. (IC) Bopegedera, A. M. January, 55–59. Chemistry as General Education (re J. Chem. Educ. 2004, 81, 54–57). (Letter) Silverstein, T. P. June, 838. Chirality Made Simple: A 1- and 2-Dimensional Introduction to Stereochemistry. Gawley, R. E. July, 1009– 1012. Demonstrating Energy Migration in Coupled Oscillators: A Central Concept in the Theory of Unimolecular Reactions. (TD) Marcotte, R. E. October, 1530–1531. A Device To Emulate Diffusion and Thermal Conductivity Using Water Flow. (TD) Blanck, H. F. October, 1523–1529. E = mc 2 for the Chemist: When Is Mass Conserved? Treptow, R. S. November, 1636–1641.

ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363. ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. Addendum to “Laser-Pointer-Based Spectrometer for Endpoint Detection of EDTA Titrations”. (Letter) Dahm, C. E. May, 683. Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. ColladoSánchez, C.; Hernández-Brito, J. J.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. February, 271–273. Analog Spectrophotometers in the Digital Age: Data Acquisition on a Budget. (CET) Nazarenko, A. Y.; Nazarenko, N. A. February, 294–296. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. Bracken, J. D.; Tietz, D. May, 762–764. Analysis of Phosphoric Acid Content in Popular Carbonated Drinks (re J. Chem. Educ. 1996, 73, 1173–1174). (Letter) Rodgers, J.; Koether, M. C. October, 1471. Analytical Chemistry for Technicians, 3rd Edition (by John Kenkel). (BMR) Harvey, D. T. January, 39. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. June, 901–902. Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) Alibrandi, G.; D’Aliberti, S.; Coppolino, S.; Villari, A.; Micali, N. March, 442– 444. Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. Mills, N. S.; Spence, J. D.; Bushey, M. M. August, 1226–1228. Chemistry and Luminescence (re J. Chem. Educ. 2005, 82, 49). (Letter) Cintas, P. June, 837. Chemistry and Luminescence—Author Reply (re J. Chem. Educ. 2005, 82, 49). (Letter) O’Hara, P. B. June, 837. A Chemometrics Module for an Undergraduate Instrumental Analysis Chemistry Course. Msimanga, H. Z.; Elkins, P.; Tata, S. K.; Smith, D. R. March, 415–424. Circular Birefringence and Circular Dichroism Simulation. (JCE SymMath) Brown, Z.; Starkey, R. July, 1100. Correction to “Promoting Graphical Thinking: Using Temperature and a Graphing Calculator To Teach Kinetics Concepts” (re J. Chem. Educ. 2004, 81, 69– 71). (Correction) Cortés-Figueroa, J. E.; MooreRusso, D. A. August, 1151. Data Analysis (Damped Oscillations) Using the Genfit Function. (JCE SymMath) Poshusta, R. D. July, 1101. A Demonstration of Sample Segregation. (TD) Fritz, M. D. February, 255–256. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. December, 1815–1819. The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. The Determination of Vanillin in a Vanilla Extract: An

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Amines / Ammonium Compounds Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. Getzler, Y. D.; Schmidt, J. A.; Coates, G. W. April, 621–624.

Amino Acids Amino Acid Complementarity: A Biochemical Exemplar of Stoichiometry for General and Health Sciences Chemistry. Vitz, E. July, 1013–1016. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. Measuring Gas-Phase Basicities of Amino Acids Using an Ion Trap Mass Spectrometer. A Physical Chemistry Laboratory Experiment. Sunderlin, L. S.; Ryzhov, V.; Keller, L. M.; Gaillard, E. R. July, 1071–1073. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596.

Analogies / Transfer


Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. Seney, C. S.; Sinclair, K. V.; Bright, R. M.; Momoh, P. O.; Bozeman, A. D. December, 1826–1829. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Early Spectroscopy and the Balmer Lines of Hydrogen (re J. Chem. Educ. 2003, 80, 1003). (Letter) Wagner, H. J. March, 380. Early Spectroscopy and the Balmer Lines of Hydrogen— Author Reply (re J. Chem. Educ. 2003, 80, 1003). (Letter) Retcofsky, H. L. March, 380. Electrochemical Fabrication of Metallic Quantum Wires. Tao, N. May, 720–726. Electrochemistry at Nanometer-Scaled Electrodes. Watkins, J. J.; Zhang, B.; White, H. S. May, 712– 719. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Encyclopedia of Analytical Science, Second Edition (edited by Paul Worsfold, Alan Townshend, and Colin Poole). (BMR) Thompson, R. Q. September, 1313– 1314. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. An Experimental Introduction to Interlaboratory Exercises in Analytical Chemistry. Puignou, L.; Llauradó, M. July, 1079–1081. Exploring Chemical Analysis, 3rd Edition (by Daniel C. Harris). (BMR) Steehler, J. K. May, 685. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. From Masurium to Trinacrium: The Troubled Story of Element 43. Zingales, R. February, 221–227. Fundamentals of Biomolecule Analysis by Electrospray Ionization Mass Spectrometry. An Instrumental Analysis Laboratory Experiment. Weinecke, A.; Ryzhov, V. January, 99–102. Good Chemical Measurements, Good Public Policies. (Commentary) Faulkner, L. R. February, 190–193. Improved Preparation of 2,4-Dinitrophenylhydrazine Reagent. (Letter) Ruekberg, B.; Rossoni, E. September, 1310. Improving Conceptions in Analytical Chemistry: ciVi = cfVf. Rodríguez-López, M.; Carrasquillo, A., Jr., September, 1327–1328. Instrumental Proficiency Program for Undergraduates. Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. June, 898– 900. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Introduction to Protein and Peptide Analysis with Mass Spectrometry (by Fred Klink). (BMR) Harvey, D. T. July, 1003–1004. Is It Necessary To Dry Primary Standards before Analysis? Spraggins, J. M., II.; Williams, T. R. February, 311–312. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. Low-Cost Thermocouple Signal-Conditioning Module. (CET) Lenzi, M. K.; Silva, F. M.; Lima, E. L.; Pinto, J. C.; Cunningham, M. F. January, 122–123. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. Paddock, J. R.; Maghasi, A. T.; Heineman, W. R.; Seliskar, C. J. September, 1370–1371. Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. ⁄ Nontypical Brønsted’s Acids and Bases. Micha lowski, T.; Rymanowski, M.; Pietrzyk, A. March, 470–472. Our Everyday Cup of Coffee: The Chemistry behind Its

Finding Chemical Anchors in the Kitchen. (CFK) Haim, L. February, 228–230. Fully Exploiting the Potential of the Periodic Table through Pattern Recognition. Schultz, E. November, 1649–1657. Further Analysis of Boiling Points of Small Molecules, CHwFxClyBrz. Beauchamp, G. December, 1842–1845. An Interactive Classroom Activity Demonstrating Reaction Mechanisms and Rate-Determining Steps. (AA) Jennings, L. D.; Keller, S. W. April, 549–550. The Nature of Hydrogen Bonding. (JCE Classroom Activity) Schultz, E. March, 400A–400B. On the Buoyancy of a Helium-Filled Balloon. Harriman, J. E. February, 246–247. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167. Putting A Human Face on Equilibrium. (VIEW) Glickstein, N. March, 391–392. The Relationship between Balancing Reactions and Reaction Lifetimes: A Consideration of the Potassium– Argon Radiometric Method for Dating Minerals. Howard, W. A. July, 1094–1098. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583.


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Sequential-Injection Analysis: Principles, Instrument Construction, and Demonstration by a Simple Experiment. (TICI) Economou, A.; Tzanavaras, P. D.; Themelis, D. G. December, 1820–1822. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. A Simple Low-Cost Lock-In Amplifier for the Laboratory. (TICI) Sengupta, S. K.; Farnham, J. M.; Whitten, J. E. September, 1399–1401. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. February, 282–285. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. Warnke, M. M.; Erickson, A. E.; Smith, E. T. July, 1082–1085. A Small-Scale Low-Cost Gas Chromatograph. (CET) Gros, N.; Vrtacˇnik, M. February, 291–293. Some Footnotes on the History of Masurium. (Letter) Wagner, H. J. September, 1309. Spectrophotometric Determination of the Dissociation Constant of an Acid–Base Indicator Using a Mathematical Deconvolution Technique. Alter, K. P.; Molloy, J. L.; Niemeyer, E. D. November, 1682–1685. Spectrophotometric Determination of the Hole Concentration in the Superconductor YBa2Cu3O7᎑x: An Undergraduate Experiment. Hoppé, J. I.; Malati, M. A. February, 299–301. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Surface pKa of Self-Assembled Monolayers. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. May, 779– 781. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. Antler, M.; Salin, E.; Wilczek-Vera, G. March, 425–427. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. May, 782–786. Teaching Significant Figures Using Age Conversions. (AA) Crute, T. D. October, 1507–1508. Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090. Turning on the Light: Lessons from Luminescence. O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 49– 52. Turning on the Light. (JCE Classroom Activity) O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 48A–48B. Understanding Mass Spectra, A Basic Approach, Second Edition (by R. Martin Smith). (BMR) Boggess, B. May, 687–688. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918. Writing-Intensive Multimedia Projects in the Instrumental Methods Course. Van Ryswyk, H. January, 70–72.

Magic. (POC) Petracco, M. August, 1161–1167. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Pharmaceutical Applications of Ion-Exchange Resins. (POC) Elder, D. P. April, 575–587. Plastic Antibodies: Molecular Recognition with Imprinted Polymers. An Introductory Polymer Chemistry Laboratory Investigation. Rushton, G. T.; Furmanski, B. D.; Shimizu, K. D. September, 1374– 1377. Posters–Old Tool, New Tech. (FPI) Raines, B. J.; Gomez, C. G.; Williams, K. R. August, 1118–1119. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667– 1670. Presumptive and Confirmatory Drug Tests. Anderson, C. December, 1809–1810. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. A Quantitative Examination of Multiple Methods for Standardizing a Dilute Hydrochloric Acid Solution in an Undergraduate Chemistry Laboratory. Meagher, N. E.; Bowens, D. B.; Clark, B. S. March, 428–434. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E.; Smith, C. J. February, 265–268. Realizing Workplace Skills in Instrumental Analysis. Kalivas, J. H. June, 895–897. Reduction of Ilmenite with Charcoal. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 456–459. Research Advances: A New Approach to Natural Product Identification; Acrylamide in French Fries; Selectively Sensing Mercury with Oligonucleotide-Based Detectors. (ROJResAdv) King, A. G. January, 10–14. Research Advances: Cars of the Future—Powered by Poison?; Prehistoric Beverage Choices; Health Benefits of Chamomile. (ROJResAdv) King, A. G. April, 506–510. Research Advances: Children on School Buses May Face Increased Exposure to Diesel Pollution; Where Did All the Nitrogen Go?; Designer Wires. (ROJResAdv) King, A. G. October, 1434–1438. Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670. Research Advances: Mechanism of Copper Acquisition by Methanotrophs; Honey Bees Use Pheromone To Delay Behavioral Maturation; Liquid Crystal Cylinders. (ROJResAdv) King, A. G. June, 810–814. Research Advances: Nanoshells vs Cancer Cells; Sex Pheromone of Cockroach Identified; New Fluorophores Unmasked by Chemical Reaction. (ROJResAdv) King, A. G. September, 1274–1278. Research Advances: Nitric Oxide Synthase Reduces Cr(VI); The Chemistry of Popcorn: It’s All About “Pop-Ability”; Nanotubes May Help Heal Broken Bones; New Method Unites Organic Materials and Nanotechnology. (ROJResAdv) King, A. G. December, 1754–1759. Research Advances: Onions Battle Osteoporosis; New Weapon in War on TB; Smokers Beware: Study Shows Increased Cadmium Levels in the Brain May Cause Severe Neurological Disorders. (ROJResAdv) King, A. G. August, 1114–1116. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612. A Sensitive Nitrate Ion-Selective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) Bendikov, T. A.; Harmon, T. C. March, 439–441. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. Bazzi, A.; Kreuz, B.; Wuokila, J.; Maqboul, A. March, 435–438.

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Applications and Analogies An Interactive Classroom Activity Demonstrating Reaction Mechanisms and Rate-Determining Steps. (AA) Jennings, L. D.; Keller, S. W. April, 549–550. Teaching Significant Figures Using Age Conversions. (AA) Crute, T. D. October, 1507–1508.

Applications of Chemistry 8:31 a.m. Belly Flop: Attitude Adjustment through Weekly Feature Molecules. Franklin, S. J.; Pienta, N. J.; Fry, M. D. June, 847–850. The ACS Prize Essay Contest. (FPI) Rice, R. E. December, 1765–1767. Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. Chemistry as General Education (re J. Chem. Educ. 2004, 81, 54–57). (Letter) Silverstein, T. P. June, 838.

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Chemistry of Durable and Regenerable Biocidal Textiles. (POC) Sun, G.; Worley, S. D. January, 60–64. Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. Casey, R. E.; Pittman, F. A. February, 260–264. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. Introductory Chemistry Needs a Revolution. ACS and IUPAC and AAAS and ICUC Should Lead It. (Commentary) Hawkes, S. J. November, 1615–1616. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. Barreto, M. C. January, 103–104. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) Rosenstein, I. J. April, 652–654. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537. Napoleon’s Buttons: Teaching the Role of Chemistry in History. Samet, C.; Higgins, P. J. October, 1496–1500. Pharmaceutical Applications of Ion-Exchange Resins. (POC) Elder, D. P. April, 575–587. Plastic Antibodies: Molecular Recognition with Imprinted Polymers. An Introductory Polymer Chemistry Laboratory Investigation. Rushton, G. T.; Furmanski, B. D.; Shimizu, K. D. September, 1374–1377. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400. Teaching Significant Figures Using Age Conversions. (AA) Crute, T. D. October, 1507–1508. Telling the Stories of Chemistry. Kitson, T. M. October, 1504. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918.

Aqueous Solution Chemistry Analysis of Natural Buffer Systems and the Impact of Acid Rain. An Environmental Project for First-Year Chemistry Students. Powers, D. C.; Higgs, A. T.; Obley, M. L.; Leber, P. A.; Hess, K. R.; Yoder, C. H. February, 274–277. Application of ChemDraw NMR Tool: Correlation of Program-Generated 13C Chemical Shifts and pKa Values of para-Substituted Benzoic Acids. Wang, H. September, 1340–1341. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230.


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Subject Index • Volume 82 • 2005 Equilibrium Constants and Water Activity. (Letter) Keeports, D. July, 999. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) Kwan, E. E. July, 1026–1030. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. Hydrolysis of Pentaamminechlorocobalt(III): A Unified Mechanistic View. González-Ferrer, G.; Martínez López, M. November, 1671–1673. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? de Levie, R. June, 885–888. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. ⁄ Nontypical Brønsted’s Acids and Bases. Micha lowski, T.; Rymanowski, M.; Pietrzyk, A. March, 470–472. On Teaching Ionic Activity Effects: What, When, and Where? de Levie, R. June, 878–884. Reaction to “The Concept of Ionic Strength Eighty Years after Its Introduction in Chemistry” (re J. Chem. Educ. 2004, 81, 750–753). (Letter) Glasser, L. February, 212. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) Wright, S. W. April, 542–544. Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. Todebush, P. M.; Geiger, F. M. October, 1542–1545. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. Johnson, A. R.; McQueen, T. M.; Rodolfa, K. T. March, 408–414. Synthesis and Analysis of Copper Hydroxy Double Salts. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. November, 1662.

www.JCE.DivChed.org/Journal/Search/ Atmospheric Chemistry

Quantitative Thermodynamic Descriptions of Aromaticity. A Computational Exercise for the Organic Chemistry Laboratory. (MMEE) Gavin, T. June, 953–957. Rotor-shaped dienyltetraphenylcyclo-butadienecobalt. An Advanced Inorganic Experiment. MacFarland, D. K.; Gorodetzer, R. January, 109–110.

Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) Whisnant, D. M.; Lever, L. S.; Howe, J. J. February, 334. The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. FTIR Determination of Pollutants in Automobile Exhaust: An Environmental Chemistry Experiment Comparing Cold-Start and Warm-Engine Conditions. Medhurst, L. J. February, 278–281. Greenhouse Gases and Non-gray Behavior. (Letter) Jones, J. C. June, 837. On the Buoyancy of a Helium-Filled Balloon. Harriman, J. E. February, 246–247. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. February, 282–285. Steel Wool and Oxygen: A Look at Kinetics. Gordon, J. S.; Chancey, K. July, 1065–1067.

Arsenic More Elementary Riddles. Cunningham, K. D. April, 539–540.

Ask the Historian The Origin of the 18-Electron Rule. (ASK) Jensen, W. B. January, 28. The Origin of the Bunsen Burner. (ASK) Jensen, W. B. April, 518. The Origin of the Name “Nylon”. (ASK) Jensen, W. B. May, 676. The Origins of Positive and Negative in Electricity. (ASK) Jensen, W. B. July, 988. The Origins of the Symbols A and Z for Atomic Weight and Number. (ASK) Jensen, W. B. December, 1764. The Symbolism of Chemical Equations. (ASK) Jensen, W. B. October, 1461.

Association Reports: 2YC3

Atomic Properties / Structure


Argon

Association Reports: CUR

The Relationship between Balancing Reactions and Reaction Lifetimes: A Consideration of the Potassium– Argon Radiometric Method for Dating Minerals. Howard, W. A. July, 1094–1098.

Communicating the Importance of Undergraduate Research to Legislators. (CUR) Karukstis, K. K. September, 1279–1280. Community-Based Research. A New Paradigm for Undergraduate Research in the Sciences. (CUR) Karukstis, K. K. January, 15–16. On-Site Reviews and Institutes To Assess and Strengthen Undergraduate Departments and Programs. (CUR) Karukstis, K. K.; Rowlett, R. April, 512–513. Professional Infrastructure for Supporting the Undergraduate Research Enterprise on Campus. (CUR) Karukstis, K. K.; Sienerth, K. D.; Farnsworth, F. V. June, 825–826. Showcasing Successful Practices That Enhance a Research-Supportive Undergraduate Curriculum. (CUR) Karukstis, K. K. October, 1440–1441.

Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Characterization and Classification of Lanthanides by Multivariate-Analysis Methods. Horovitz, O.; Sârbu, C. March, 473–483. E = mc 2 for the Chemist: When Is Mass Conserved? Treptow, R. S. November, 1636–1641. Electronegativity and the Bond Triangle. Meek, T. L.; Garner, L. D. February, 325–333. Experiences and Reflections about Teaching Atomic Structure in a Jigsaw Classroom in Lower Secondary School Chemistry Lessons. (CER) Eilks, I. February, 313–319. The Meaning of d-Orbital Labels. Ashkenazi, G. February, 323–324. Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392. The Physics Teacher: Sliders, Staircases, and Seduction. (ROJPhysTea) Clark, R. W. February, 200. Predicting the Atomic Weights of the Trans-Lawrencium Elements: A Novel Application of Dobereiner’s Triads. Ibrahim, S. A. November, 1658–1659. Properties of the Lanthanide Metals: Correlations and Discontinuities (re J. Chem. Educ. 2005, 82, 473– 483). (Letter) Laing, M. November, 1623. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Revisiting the Electric Pickle Demonstration. (TD) Rizzo, M. M.; Halmi, T. A.; Jircitano, A. J.; Kociolek, M. G.; Magraw, J. A. April, 545–546. Self-Consistent Field Calculations on Atoms Using Excel. (ACL) Hoffman, G. G. September, 1418–1422. Self-Consistent Field Calculations Spreadsheet. (JCE WebWare) Hoffman, G. G. September, 1423–1424. Trends in Ionization Energy of Transition-Metal Elements. Matsumoto, P. S. November, 1660–1661.

Astatine

Atomic Spectroscopy

Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727.

Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. Seney, C. S.; Sinclair, K. V.; Bright, R. M.; Momoh, P. O.; Bozeman, A. D. December, 1826–1829. Early Spectroscopy and the Balmer Lines of Hydrogen (re J. Chem. Educ. 2003, 80, 1003). (Letter) Wagner, H. J. March, 380. Early Spectroscopy and the Balmer Lines of Hydrogen— Author Reply (re J. Chem. Educ. 2003, 80, 1003). (Letter) Retcofsky, H. L. March, 380. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. Exploring Chemical Analysis, 3rd Edition (by Daniel C. Harris). (BMR) Steehler, J. K. May, 685. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E.; Smith, C. J. February, 265–268. Revisiting the Electric Pickle Demonstration. (TD)

Aromatic Compounds Acid-Catalyzed Isomerization of Carvone to Carvacrol. Kjonaas, R. A.; Mattingly, S. P. December, 1813– 1814. An Azulene-Based Discovery Experiment: Challenging Students To Watch for the “False Assumption”. Garner, C. M. November, 1686–1688. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. December, 1815–1819. Formation of α-Tetralone by Intramolecular Friedel– Crafts Acylation. (ML) Holden, M. S.; Crouch, R. D.; Barker, K. H. June, 934–935. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave, G. W.; Raston, C. L. March, 468–469. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541.

1900


Association Reports: ACS Division of Chemical Education Committee Reports, March 2005. (DivCHED) July, 978–984. Committee Reports, November 2004. (DivCHED) January, 21–27.

Association Reports: ACS Education Going Green: Lecture Assignments and Lab Experiences for the College Curriculum. (ACS) Haack, J. A.; Hutchison, J. E.; Kirchhoff, M. M.; Levy, I. J. July, 974–976. Undergraduate Transitions: Enhancing Student Success. (ACS) Wesemann, J. February, 196–198.

Astrochemistry Chemistry, Creativity, Collaboration, and C60: An Interview with Harold W. Kroto. Cardellini, L. May, 751–755. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973.

Asymmetric Synthesis Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. Baar, M. R.; Wustholz, K. L. September, 1393–1394.

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924–925. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Equilibrium Gel Filtration Chromatography for the Measurement of Protein–Ligand Binding in the Undergraduate Biochemistry Laboratory. Craig, D. B. January, 96–98. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. “In Yeast” Wordsearch. Helser, T. L. April, 552. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Introduction to Protein and Peptide Analysis with Mass Spectrometry (by Fred Klink). (BMR) Harvey, D. T. July, 1003–1004. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. A LED Microtiter Plate Reader. Gordon, J. S.; Tye, S. June, 903–905. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. Barreto, M. C. January, 103–104. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Music and Chemistry (re J. Chem. Educ. 2004, 81, 507– 508). (Letter) Behrman, E. J. January, 37. The Organic Chemistry of Biological Pathways (by John E. McMurry and Tadhg P. Begley). (BMR) Rosan, A. M. November, 1626–1628. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) Celej, M. S.; Fidelio, G. D.; Dassie, S. A. January, 85–92. Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670. Research Advances: Horseradish, Peroxide Mixture May End War of the Noses; Even Low Levels of Benzene Are Hemotoxic; New “Nuclear Battery” Runs 10 Years, 10 Times More Powerful. (ROJResAdv) King, A. G. November, 1594–1597. Research Advances: Mechanism of Copper Acquisition by Methanotrophs; Honey Bees Use Pheromone To Delay Behavioral Maturation; Liquid Crystal Cylinders. (ROJResAdv) King, A. G. June, 810–814. Research Advances: Nanoshells vs Cancer Cells; Sex Pheromone of Cockroach Identified; New Fluorophores Unmasked by Chemical Reaction. (ROJResAdv) King, A. G. September, 1274–1278. Research Advances: Nitric Oxide Synthase Reduces Cr(VI); The Chemistry of Popcorn: It’s All About “Pop-Ability”; Nanotubes May Help Heal Broken Bones; New Method Unites Organic Materials and Nanotechnology. (ROJResAdv) King, A. G. December, 1754–1759. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. January, 93–95. The The Stereochemistry of Biochemical Molecules: A Subject to Revisit. Centelles, J. J.; Imperial, S. January, 75–78. Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical– Computational Project. Baudry, J.; Hergenrother, P. J. June, 890–894. Teaching Biochemistry at a Minority-Serving Institution: An Evaluation of the Role of Collaborative Learning as a Tool for Science Mastery. Peters, A. W. April, 571– 574. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598. Testing for Ultraviolet Toxicity Using Fungi. Vital, M.; Esperón, P. June, 926–929. Turning on the Light: Lessons from Luminescence. O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 49–52.

Rizzo, M. M.; Halmi, T. A.; Jircitano, A. J.; Kociolek, M. G.; Magraw, J. A. April, 545–546. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. Bazzi, A.; Kreuz, B.; Wuokila, J.; Maqboul, A. March, 435–438.

Award Address Conant Award Interview: An Interview with Annis Hapkiewicz, 2005 Award Winner. (Award Address) JCE Editorial Staff. September, 1287–1291. Constructivism and Information Technology at Columbia: A Journey from the Wilderness to the Promised Land. 2004 George C. Pimentel Award, sponsored by Dow Chemical Co.. (Award Address) Turro, N. J. September, 1292–1301. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675.

Beryllium More Elementary Riddles. Cunningham, K. D. April, 539–540.

Bioanalytical Chemistry Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Introduction to Protein and Peptide Analysis with Mass Spectrometry (by Fred Klink). (BMR) Harvey, D. T. July, 1003–1004. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. Barreto, M. C. January, 103–104. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. January, 93–95. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598. Variable Effects during Polymerization. Lunsford, S. K. December, 1830–1832.

Biochemistry A 3D Model of Double-Helical DNA Showing Variable Chemical Details. Cady, S. January, 79–84. ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363. ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. Amino Acid Complementarity: A Biochemical Exemplar of Stoichiometry for General and Health Sciences Chemistry. Vitz, E. July, 1013–1016. Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) Ship, N. J.; Zamble, D. B. December, 1805–1808. Assessment of Molecular Construction in Undergraduate Biochemistry. Booth, D.; Bateman, R. C., Jr.; Sirochman, R.; Richardson, D. C.; Richardson, J. S.; Weiner, S. W.; Farwell, M.; Putnam-Evans, C. December, 1854–1858. Boosting Complex Learning by Strategic Assessment and Course Design. (CER) Bergendahl, C.; Tibell, L. April, 645–651. Brewing Science in the Chemistry Laboratory: A “Mashing” Investigation of Starch and Carbohydrates. Pelter, M. W.; McQuade, J. December, 1811–1812. Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Correction to “DeLorenzo’s Four Interesting Mysteries Verified” (re J. Chem. Educ. 2002, 79, 1217–1219). (Correction) Ferriols-Pavico, J. M. August, 1151. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. June,

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Bioenergetics Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828.

Bioinorganic Chemistry Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) Ship, N. J.; Zamble, D. B. December, 1805–1808. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. Polypyrazolylborates: Scorpionates. (POC) Trofimenko, S. November, 1715–1720.

Biological Cells Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799.

Bioorganic Chemistry Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) Ship, N. J.; Zamble, D. B. December, 1805–1808. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. Isolation of Shikimic Acid from Star Aniseed. Payne, R.; Edmonds, M. K. April, 599–600. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B. A Collaborative Experiment for Advanced Undergraduates. Rebolledo, F.; Liz, R. June, 930–933. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670. Research Advances: Mechanism of Copper Acquisition by Methanotrophs; Honey Bees Use Pheromone To Delay Behavioral Maturation; Liquid Crystal Cylinders. (ROJResAdv) King, A. G. June, 810–814. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400. Synthesis of Meso-Octamethylporphyrinogen: An Undergraduate Laboratory Mini-Scale Experiment in Organic Heterocyclic Chemistry. (ML) Sobral, A. J. April, 618–620.

Biophysical Chemistry Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. June, 924–925. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. A LED Microtiter Plate Reader. Gordon, J. S.; Tye, S. June, 903–905.


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Subject Index • Volume 82 • 2005 Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) Celej, M. S.; Fidelio, G. D.; Dassie, S. A. January, 85–92. Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical– Computational Project. Baudry, J.; Hergenrother, P. J. June, 890–894.

Biotechnology A 3D Model of Double-Helical DNA Showing Variable Chemical Details. Cady, S. January, 79–84. Chemistry of Durable and Regenerable Biocidal Textiles. (POC) Sun, G.; Worley, S. D. January, 60–64. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020. Our Molecular Future: How Nanotechnology, Robotics, Genetics, and Artificial Intelligence Will Transform Our World (by Douglas Mulhall). (BMR) Frech, C. B. May, 685–686. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598.

Bismuth Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727.

Book and Media Reviews Analytical Chemistry for Technicians, 3rd Edition (by John Kenkel). (BMR) Harvey, D. T. January, 39. The Cartoon Guide to Chemistry (by Larry Gonick and Craig Criddle). (BMR) Harris, H. H. December, 1777–1778. The Chemical Bond: A Fundamental Quantum–Mechanical Picture (Springer Series in Chemical Physics) (by Tadamassa Shida). (BMR) Pounds, A. J. July, 1000–1001. Encyclopedia of Analytical Science, Second Edition (edited by Paul Worsfold, Alan Townshend, and Colin Poole). (BMR) Thompson, R. Q. September, 1313– 1314. Environmental Laboratory Exercises for Instrumental Analysis and Environmental Chemistry (by Frank M. Dunnivant). (BMR) De Jesús, M. A. March, 382. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. Exploring Chemical Analysis, 3rd Edition (by Daniel C. Harris). (BMR) Steehler, J. K. May, 685. Faculty Guide for Moving Teaching and Learning to the Web, Second Edition (by Judith V. Boettcher and Rita-Marie Conrad). (BMR) Pienta, N. J. July, 1000. The Fly in the Ointment: 70 Fascinating Commentaries on the Science of Everyday Life (by Joe Schwarcz). (BMR) Conover, W. December, 1777. Fundamentals of Quantum Chemistry (Complementary Science Series), Second Edition (by James E. House). (BMR) Tuchler, M. July, 1002–1003. Instant Notes in Inorganic Chemistry, Second Edition (by P. A. Cox). (BMR) Smith, P. M. February, 213. Instant Notes in Organic Chemistry, 2nd Edition (by Graham L. Patrick). (BMR) Eberlein, T. H. December, 1778–1780. An Introduction to Chemical Kinetics (by Margaret Robson Wright). (BMR) Elrod, M. J. January, 40–41. Introduction to Protein and Peptide Analysis with Mass Spectrometry (by Fred Klink). (BMR) Harvey, D. T. July, 1003–1004. Introduction to Quantum Mechanics: in Chemistry, Material Science, and Biology (by S. M. Blinder). (BMR) Dunn, K. M. March, 383–386. The Joy of Chemistry: The Amazing Science of Familiar Things (by Cathy Cobb and Monty L. Fetterolf ). (BMR) Matthews, M. S. October, 1475. The Literature of Chemistry: Recommended Titles for Undergraduate Chemistry Library Collections (by Judith A. Douville). (BMR) Kovac, J. D. August, 1153. Make Your Mark in Science. Creativity, Presenting, Publishing, and Patents. A Guide for Young Scientists (by Claus Ascheron and Angela Kickuth). (BMR) Kovac, J. D. September, 1313. Metal–Ligand Bonding (by Rob Janes and Elaine Moore). (BMR) Pesterfield, L. L. August, 1153–1154.

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Modern Spectroscopy, 4th Edition (by J. Michael Hollas). (BMR) Castner, E. W., Jr. January, 43–44. Molecular Diversity and Combinatorial Chemistry: Principles and Applications (Tetrahedron Organic Chemistry Series) (by Michael C. Pirrung). (BMR) Crouch, R. D. August, 1154–1156. Name Reactions and Reagents in Organic Synthesis, 2nd Ed. (by Bradford P. Mundy, Michael G. Ellerd, and Frank G. Favaloro). (BMR) Holman, R. W. December, 1780–1782. Named Organic Reactions, 2nd Ed. (by Thomas Laue and Andreas Plagens). (BMR) Holman, R. W. December, 1780–1782. Nanophysics and Nanotechnology: An Introduction to Modern Concepts in Nanoscience (by Edward L. Wolf ). (BMR) Somer, F. L., Jr. November, 1625– 1626. Organic Chemistry at a Glance (by L. M. Harwood, J. E. McKendrick, and R. C. Whitehead). (BMR) Gooch, E. E. June, 841–842. The Organic Chemistry of Biological Pathways (by John E. McMurry and Tadhg P. Begley). (BMR) Rosan, A. M. November, 1626–1628. Organic Chemistry: An Intermediate Text, Second Edition (by Robert V. Hoffman). (BMR) Waddell, T. G. February, 215–216. Our Molecular Future: How Nanotechnology, Robotics, Genetics, and Artificial Intelligence Will Transform Our World (by Douglas Mulhall). (BMR) Frech, C. B. May, 685–686. Polymer Chemistry: Introduction to an Indispensable Science (by David M. Teegarden). (BMR) Matthews, M. S. February, 213–214. Polymers (Oxford Chemistry Primers No. 85) (by David Walton and J. Phillip Lorimer). (BMR) Shibata, J. H. April, 532–534. Promethean Ambitions: Alchemy and the Quest to Perfect Nature (by William R. Newman). (BMR) Bernal, P. J. April, 531–532. Quantal Density Functional Theory (by Viraht Sahni). (BMR) Massa, L. October, 1476–1478. Quantum Mechanics: A Conceptual Approach (by Hendrik F. Hameka). (BMR) Tuchler, M. January, 41– 43. Solvents and Solvent Effects in Organic Chemistry, Third Edition (by Christian Reichardt). (BMR) Pagni, R. M. March, 382–383. Strategic Applications of Named Reactions in Organic Synthesis: Background and Detailed Mechanisms (by László Kürti and Barbara Czakó). (BMR) Holman, R. W. December, 1780–1782. Understanding Mass Spectra, A Basic Approach, Second Edition (by R. Martin Smith). (BMR) Boggess, B. May, 687–688. Van Nostrand’s Encyclopedia of Chemistry, Fifth Edition (edited by Glenn D. Considine). (BMR) Kovac, J. D. June, 840–841. The Way of the Teacher (by J. M. Haile). (BMR) Kovac, J. D. October, 1476. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) Harris, H. H. April, 530–531.

Endpoint Detection of EDTA Titrations”. (Letter) Dahm, C. E. May, 683. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512.

Calculator-Based Learning The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. A LED Microtiter Plate Reader. Gordon, J. S.; Tye, S. June, 903–905. The Reaction Quotient (Q) IS Useful After All (re J. Chem. Educ. 2005, 82, 406–407. (Letter) Silverstein, T. P. August, 1149. Steel Wool and Oxygen: A Look at Kinetics. Gordon, J. S.; Chancey, K. July, 1065–1067. Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512.

Calibration Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. June, 901–902. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. Low-Cost Thermocouple Signal-Conditioning Module. (CET) Lenzi, M. K.; Silva, F. M.; Lima, E. L.; Pinto, J. C.; Cunningham, M. F. January, 122–123. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Robust Linear Regression Using Theil’s Method. (Letter) Glaister, P. October, 1472–1473.

Calorimetry / Thermochemistry Is It Necessary To Dry Primary Standards before Analysis? Spraggins, J. M., II.; Williams, T. R. February, 311–312. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Low-Cost Thermocouple Signal-Conditioning Module. (CET) Lenzi, M. K.; Silva, F. M.; Lima, E. L.; Pinto, J. C.; Cunningham, M. F. January, 122–123. A Methane Balloon Inflation Chamber. (TD) Czerwinski, C. J.; Cordes, T. J. February, 248–250. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) Celej, M. S.; Fidelio, G. D.; Dassie, S. A. January, 85–92. The q/T Paradox: Which “Contains More Heat”, a Cup of Coffee at 95 °C or a Liter of Icewater? (TD) Vitz, E.; Schuman, M. J. June, 856–860. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. Salter, G.; Range, K.; Salter, C. February, 297–298.

Boron Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392.

Bromine A Substitute for “Bromine in Carbon Tetrachloride". Daley, J. M.; Landolt, R. G. January, 120–121.

Carbocations The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051– 1052.

Cadmium Cadmium. (CLIP) Young, J. A. April, 521. Research Advances: Onions Battle Osteoporosis; New Weapon in War on TB; Smokers Beware: Study Shows Increased Cadmium Levels in the Brain May Cause Severe Neurological Disorders. (ROJResAdv) King, A. G. August, 1114–1116. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. November, 1697–1699. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612.

Carbohydrates Brewing Science in the Chemistry Laboratory: A “Mashing” Investigation of Starch and Carbohydrates. Pelter, M. W.; McQuade, J. December, 1811–1812. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675.

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Robbins, D. M. April, 561–566. Chinese Students’ Opinions about “What is the Biggest Problem in Chemistry?”. (Letter) Mingjie, Z.; Qichao, Y. February, 210. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) Kruse, R. A.; Roehrig, G. H. August, 1246–1250. Contemporary Moral Problems in Chemistry: Effect of Peer Presentations on Students’ Awareness of Science and Society Issues. (CER) White, H. B., III.; Brown, S. D.; Johnston, M. V. October, 1570–1576. Cross-Proportions: A Conceptual Method for Developing Quantitative Problem-Solving Skills. Cook, E.; Cook, R. L. August, 1187–1189. Departing from Lectures: An Evaluation of a Peer-Led Guided Inquiry Alternative. (CER) Lewis, S. E.; Lewis, J. E. January, 135–139. The Effects of Thinking Aloud Pair Problem Solving on High School Students’ Chemistry Problem-Solving Performance and Verbal Interaction. (CER) Jeon, K.; Huffman, D.; Noh, T. October, 1558–1564. Electronegativity and the Bond Triangle. Meek, T. L.; Garner, L. D. February, 325–333. Evaluating Students’ Conceptual Understanding of Balanced Equations and Stoichiometric Ratios Using a Particulate Drawing. (CER) Sanger, M. J. January, 131–134. Experiences and Reflections about Teaching Atomic Structure in a Jigsaw Classroom in Lower Secondary School Chemistry Lessons. (CER) Eilks, I. February, 313–319. Implementing the Professional Development Standards: A Research Department’s Innovative Masters Degree Program for High School Chemistry Teachers. Blasie, C. W.; Palladino, G. F. April, 567–570. The Inquiry Wheel, an Alternative to the Scientific Method (re J. Chem. Educ. 2004, 81, 791–792. (Letter) Wink, D. J. May, 682. The Inquiry Wheel, an Alternative to the Scientific Method—Author Reply (re J. Chem. Educ. 2004, 81, 791–792. (Letter) Harwood, W. S. May, 682. “It Gets Me to the Product”: How Students Propose Organic Mechanisms. (CER) Bhattacharyya, G.; Bodner, G. M. September, 1402–1407. Meeting Report: Chemistry Everywhere. A Brief Report on the 18th Biennial Conference on Chemical Education. Meints, C.; Burke, K. A. January, 17–20. Molecular Visualization in Science Education: An Evaluation of an NSF-Sponsored Workshop. (CER) José, T.; Williamson, V. M. June, 937–943. Performance-Related Feedback: The Hallmark of Efficient Instruction. Brooks, D. W.; Schraw, G.; Crippen, K. J. April, 641–644. The Physics Teacher: Sliders, Staircases, and Seduction. (ROJPhysTea) Clark, R. W. February, 200. Posters–Old Tool, New Tech. (FPI) Raines, B. J.; Gomez, C. G.; Williams, K. R. August, 1118–1119. Reaction to “Chemistry Is Not a Laboratory Science”— Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 997–998. Reaping the Benefits of Chemical Education Research. (Editorial) Moore, J. W. October, 1431. Response to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Morton, S. D. July, 997. The Same or Not the Same: Equivalence as an Issue in Educational Research. (CER) Lewis, S. E.; Lewis, J. E. September, 1408–1412. A Six-Year Study of the Effects of a Remedial Course in the Chemistry Curriculum. (CER) Bently, A. B.; Gellene, G. I. January, 125–130. The Student-to-Student Chemistry Initiative: The Impact of Chemistry Demonstration Programs Presented by High School Students at Elementary Schools. Voegel, P. D.; Quashnock, K. A.; Heil, K. M. April, 634–636. Systemic Approach to Teaching and Learning. (Letter) Lagowski, J. J. February, 211. Taking Issue with “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Stephens, C. E. July, 998. Taking Issue with “Chemistry Is Not a Laboratory Science”—Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 998–999. Teaching Biochemistry at a Minority-Serving Institution: An Evaluation of the Role of Collaborative Learning as a Tool for Science Mastery. Peters, A. W. April, 571– 574. Understanding Attrition in an Introductory Chemistry Sequence Following Successful Completion of a Remedial Course. (CER) Jones, K. B.; Gellene, G. I.

Application of ChemDraw NMR Tool: Correlation of Program-Generated 13C Chemical Shifts and pKa Values of para-Substituted Benzoic Acids. Wang, H. September, 1340–1341. Formation of α-Tetralone by Intramolecular Friedel– Crafts Acylation. (ML) Holden, M. S.; Crouch, R. D.; Barker, K. H. June, 934–935.

Catalysis Chemiluminescent Oscillating Demonstrations: The Chemical Buoy, the Lighting Wave, and the Ghostly Cylinder. (TD) Prypsztejn, H. E. January, 53–54. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Concerning “A Reaction That Takes Place in Beakers but Not in Conical Flasks: A Catalysis-Related Demonstration” (re J. Chem. Educ. 2004, 81, 364). (Letter) Espenson, J. H. April, 527. Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. Heinson, C. D.; Williams, J. M.; Tinnerman, W. N.; Malloy, T. B. May, 787–789. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) Kwan, E. E. July, 1026–1030. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. A Modified Demonstration of the Catalytic Decomposition of Hydrogen Peroxide. (TD) Trujillo, C. A. June, 855. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B. A Collaborative Experiment for Advanced Undergraduates. Rebolledo, F.; Liz, R. June, 930–933. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Soltzberg, L. J.; Brown, V. April, 526. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate—Author Reply (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Herrera-Melián, J. A.; Araña Mesa, J. April, 526. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. Romero, A.; Hernández, G.; Suárez, M. F. August, 1234–1236. Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. Getzler, Y. D.; Schmidt, J. A.; Coates, G. W. April, 621–624.

Chemical Education Research Assessing the Effect of Web-Based Learning Tools on Student Understanding of Stoichiometry Using Knowledge Space Theory. (TECH) Arasasingham, R. D.; Taagepera, M.; Potter, F.; Martorell, I.; Lonjers, S. August, 1251–1262. Assessment of Molecular Construction in Undergraduate Biochemistry. Booth, D.; Bateman, R. C., Jr.; Sirochman, R.; Richardson, D. C.; Richardson, J. S.; Weiner, S. W.; Farwell, M.; Putnam-Evans, C. December, 1854–1858. Attitudinal Effects of a Student-Centered Active Learning Environment. (CER) Oliver-Hoyo, M. T.; Allen, D. June, 944–949. Beyond “Student Attitudes”: Chemistry Self-Concept Inventory for Assessment of the Affective Component of Student Learning. (CER) Bauer, C. F. December, 1864–1870. Boosting Complex Learning by Strategic Assessment and Course Design. (CER) Bergendahl, C.; Tibell, L. April, 645–651. Chem-2-Chem: A One-to-One Supportive Learning Environment for Chemistry. (CER) Báez-Galib, R.; Colón-Cruz, H.; Resto, W.; Rubin, M. R. December, 1859–1863. Chemistry in the City: An Amendment (re J. Chem. Educ. 2003, 80, 850–856). (Letter) Fine, L. W. January, 38. Chemistry Teachers’ Estimations of Their Students’ Learning Achievement. (CER) Lin, H.; Lee, S. T.; Treagust, D. F. October, 1565–1569. Chemistry, The Central Science? The History of the High School Science Sequence. (SSC) Sheppard, K.;

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August, 1241–1245. Using an Interactive, Compensatory Model of Learning To Improve Chemistry Teaching. Schraw, G.; Brooks, D. W.; Crippen, K. J. April, 637–640. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735.

Chemical Education Research Attitudinal Effects of a Student-Centered Active Learning Environment. (CER) Oliver-Hoyo, M. T.; Allen, D. June, 944–949. Beyond “Student Attitudes”: Chemistry Self-Concept Inventory for Assessment of the Affective Component of Student Learning. (CER) Bauer, C. F. December, 1864–1870. Boosting Complex Learning by Strategic Assessment and Course Design. (CER) Bergendahl, C.; Tibell, L. April, 645–651. Chem-2-Chem: A One-to-One Supportive Learning Environment for Chemistry. (CER) Báez-Galib, R.; Colón-Cruz, H.; Resto, W.; Rubin, M. R. December, 1859–1863. Chemistry Teachers’ Estimations of Their Students’ Learning Achievement. (CER) Lin, H.; Lee, S. T.; Treagust, D. F. October, 1565–1569. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) Kruse, R. A.; Roehrig, G. H. August, 1246–1250. Contemporary Moral Problems in Chemistry: Effect of Peer Presentations on Students’ Awareness of Science and Society Issues. (CER) White, H. B., III.; Brown, S. D.; Johnston, M. V. October, 1570–1576. Departing from Lectures: An Evaluation of a Peer-Led Guided Inquiry Alternative. (CER) Lewis, S. E.; Lewis, J. E. January, 135–139. The Effects of Thinking Aloud Pair Problem Solving on High School Students’ Chemistry Problem-Solving Performance and Verbal Interaction. (CER) Jeon, K.; Huffman, D.; Noh, T. October, 1558–1564. Evaluating Students’ Conceptual Understanding of Balanced Equations and Stoichiometric Ratios Using a Particulate Drawing. (CER) Sanger, M. J. January, 131–134. Experiences and Reflections about Teaching Atomic Structure in a Jigsaw Classroom in Lower Secondary School Chemistry Lessons. (CER) Eilks, I. February, 313–319. “It Gets Me to the Product”: How Students Propose Organic Mechanisms. (CER) Bhattacharyya, G.; Bodner, G. M. September, 1402–1407. Molecular Visualization in Science Education: An Evaluation of an NSF-Sponsored Workshop. (CER) José, T.; Williamson, V. M. June, 937–943. The Same or Not the Same: Equivalence as an Issue in Educational Research. (CER) Lewis, S. E.; Lewis, J. E. September, 1408–1412. A Six-Year Study of the Effects of a Remedial Course in the Chemistry Curriculum. (CER) Bently, A. B.; Gellene, G. I. January, 125–130. Understanding Attrition in an Introductory Chemistry Sequence Following Successful Completion of a Remedial Course. (CER) Jones, K. B.; Gellene, G. I. August, 1241–1245.

Chemical Engineering Dynamic and Equilibrium Adsorption Experiments. Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Da Silva, F. A.; Silva, C. M. June, 919–923. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. FríasFerrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. September, 1395–1398. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) Barrie, P. J. June, 958–959. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675.


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Subject Index • Volume 82 • 2005 Chemical Information Instructor Learning To Search in Ten Easy Steps: A Review of a Chemical Information Course. (CII) Currano, J. N. March, 484–488. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) Rosenstein, I. J. April, 652–654.

Chemical Laboratory Information Profile, CLIP Ammonium Chloride. (CLIP) Young, J. A. November, 1618. Ammonium Dichromate. (CLIP) Young, J. A. November, 1617. Ammonium Thiocyanate. (CLIP) Young, J. A. November, 1619. Benzaldehyde. (CLIP) Young, J. A. December, 1770. Benzene. (CLIP) Young, J. A. December, 1769. Benzidine. (CLIP) Young, J. A. December, 1768. Cadmium. (CLIP) Young, J. A. April, 521. Catechol. (CLIP) Young, J. A. January, 31. Copper(I) Chloride. (CLIP) Young, J. A. July, 991. Copper(II) Acetate Monohydrate. (CLIP) Young, J. A. July, 990. Copper(II) Nitrate Trihydrate. (CLIP) Young, J. A. March, 375. Hydrogen Sulfide. (CLIP) Young, J. A. February, 202. Lithium. (CLIP) Young, J. A. April, 520. Luminol (3-Aminophthalhydrazide). (CLIP) Young, J. A. October, 1465. Magnesium Oxide. (CLIP) Young, J. A. May, 677. Magnesium Sulfate. (CLIP) Young, J. A. May, 678. Mercury. (CLIP) Young, J. A. February, 203. Nickel(II) Carbonate. (CLIP) Young, J. A. June, 830. Nickel(II) Oxide. (CLIP) Young, J. A. June, 831. Poly(Vinyl Alcohol). (CLIP) Young, J. A. October, 1466. Potassium Hydroxide. (CLIP) Young, J. A. September, 1304. Potassium Nitrate. (CLIP) Young, J. A. September, 1305. Sodium Borate Hydrogen Peroxidate Trihydrate. (CLIP) Young, J. A. January, 30. Zinc (dust and bulk). (CLIP) Young, J. A. August, 1143. Zinc Nitrate Hexahydrate. (CLIP) Young, J. A. August, 1144.

Chemical Technicians Instrumental Proficiency Program for Undergraduates. Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. June, 898– 900. Undergraduate Transitions: Enhancing Student Success. (ACS) Wesemann, J. February, 196–198.

Chemistry for Kids


Characterization and Classification of Lanthanides by Multivariate-Analysis Methods. Horovitz, O.; Sârbu, C. March, 473–483. A Chemometrics Module for an Undergraduate Instrumental Analysis Chemistry Course. Msimanga, H. Z.; Elkins, P.; Tata, S. K.; Smith, D. R. March, 415–424. Data Analysis (Damped Oscillations) Using the Genfit Function. (JCE SymMath) Poshusta, R. D. July, 1101. A Demonstration of Sample Segregation. (TD) Fritz, M. D. February, 255–256. An Experimental Introduction to Interlaboratory Exercises in Analytical Chemistry. Puignou, L.; Llauradó, M. July, 1079–1081. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. First-Order or Second-Order Kinetics? A Monte Carlo Answer. Tellinghuisen, J. November, 1709–1714. Further Analysis of Boiling Points of Small Molecules, CHwFxClyBrz. Beauchamp, G. December, 1842–1845. Global Least-Squares Analysis of the IR Rotation–Vibration Spectrum of HCl. Tellinghuisen, J. January, 150– 156. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100. Understanding Least Squares through Monte Carlo Calculations. Tellinghuisen, J. January, 157–166.

Chirality / Optical Activity

3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. November, 1741–1742. Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. JCE Chemical Laboratory Information Profiles (CLIPs) on CD-ROM. Abstract of JCE CLIPs 2005. (JCE Software) Holmes, J. L. November, 1744. Journal of Chemical Education on CD-ROM, 2004. Abstract of JCE CD 2004. (JCE Software) Holmes, J. L. February, 336. Kilogram and the Mole Redux. (Letter) Karol, P. J. Feb-

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An Azulene-Based Discovery Experiment: Challenging Students To Watch for the “False Assumption”. Garner, C. M. November, 1686–1688. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Enthalpy of Vaporization by Gas Chromatography: A Physical Chemistry Experiment. Ellison, H. R. July, 1086–1088. Equilibrium Gel Filtration Chromatography for the Measurement of Protein–Ligand Binding in the Undergraduate Biochemistry Laboratory. Craig, D. B. January, 96–98. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. Exploring Chemical Analysis, 3rd Edition (by Daniel C. Harris). (BMR) Steehler, J. K. May, 685. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. Clennan, M. M.; Clennan, E. L. November, 1676–1678. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. M&M Orange (re J. Chem. Educ. 2002, 79, 847). (Letter) Elder, J. W. February, 209. M&M Orange—Author Reply (re J. Chem. Educ. 2002, 79, 847). (Letter) Birdwhistell, K. R.; Spence, T. G. February, 209. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B. A Collaborative Experiment for Advanced Undergraduates. Rebolledo, F.; Liz, R. June, 930–933. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. The Sharpless Asymmetric Dihydroxylation in the Organic Chemistry Majors Laboratory. Nichols, C. J.; Taylor, M. R. January, 105–108. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. Warnke, M. M.; Erickson, A. E.; Smith, E. T. July, 1082–1085. A Small-Scale Low-Cost Gas Chromatograph. (CET) Gros, N.; Vrtacˇnik, M. February, 291–293. Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090.

Chemometrics

Chiral Crystallization of Ethylenediamine Sulfate. Koby, L.; Ningappa, J. B.; Dakessian, M.; Cuccia, L. A. July, 1043–1045. Chirality Made Simple: A 1- and 2-Dimensional Introduction to Stereochemistry. Gawley, R. E. July, 1009– 1012. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. Baar, M. R.; Cerrone-Szakal, A. L. July, 1040–1042. An Engaging Illustration of the Physical Differences among Menthol Stereoisomers. Treadwell, E. M.; Black, T. H. July, 1046–1048. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389. The Sharpless Asymmetric Dihydroxylation in the Organic Chemistry Majors Laboratory. Nichols, C. J.; Taylor, M. R. January, 105–108. Stereogenic Centers and Axes: A Comparison of the Chiral Topologies Available to Cabcd and abC=C=Ccd. Lloyd-Williams, P.; Giralt, E. July, 1031–1033. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354.

Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) Wally, L. M.; Levinger, N. E.; Grainger, D. W. October, 1489–1495. Finding Chemical Anchors in the Kitchen. (CFK) Haim, L. February, 228–230. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. Science Days: An Interdisciplinary Outreach Program. (CFK) Flynn, N. E. October, 1483–1485.

Chromatography

ruary, 212. Learning Molecular Geometry and Symmetry through Quantum Computations and Mathcad Exercises. (JCE SymMath) Chen, F. M. January, 174. Learning To Search in Ten Easy Steps: A Review of a Chemical Information Course. (CII) Currano, J. N. March, 484–488. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) Rosenstein, I. J. April, 652–654. National Chemistry Week 2005: The Joy of Toys. JCE Resources for Chemistry and Toys. Jacobsen, E. K. October, 1443–1446. Online Sources of Organic Data. (Letter) Myers, B. J. November, 1623. Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical– Computational Project. Baudry, J.; Hergenrother, P. J. June, 890–894.


Chromium Concerning “A Reaction That Takes Place in Beakers but Not in Conical Flasks: A Catalysis-Related Demonstration” (re J. Chem. Educ. 2004, 81, 364). (Letter) Espenson, J. H. April, 527. Research Advances: Horseradish, Peroxide Mixture May End War of the Noses; Even Low Levels of Benzene Are Hemotoxic; New “Nuclear Battery” Runs 10 Years, 10 Times More Powerful. (ROJResAdv) King, A. G. November, 1594–1597. Research Advances: Nitric Oxide Synthase Reduces Cr(VI); The Chemistry of Popcorn: It’s All About “Pop-Ability”; Nanotubes May Help Heal Broken Bones; New Method Unites Organic Materials and Nanotechnology. (ROJResAdv) King, A. G. December, 1754–1759. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. Bazzi, A.; Kreuz, B.; Wuokila, J.; Maqboul, A. March, 435–438.

Collaborative / Cooperative Learning The Art and Science of Light. An Interdisciplinary Teaching and Learning Experience. (IC) Bopegedera, A. M. January, 55–59. Chem-2-Chem: A One-to-One Supportive Learning Environment for Chemistry. (CER) Báez-Galib, R.; Colón-Cruz, H.; Resto, W.; Rubin, M. R. December, 1859–1863.

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Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) Whisnant, D. M.; Lever, L. S.; Howe, J. J. February, 334. Departing from Lectures: An Evaluation of a Peer-Led Guided Inquiry Alternative. (CER) Lewis, S. E.; Lewis, J. E. January, 135–139. Doing Science and Asking Questions II: An Exercise That Generates Questions. Middlecamp, C. H.; Nickel, A. L. August, 1181–1186. Experiences and Reflections about Teaching Atomic Structure in a Jigsaw Classroom in Lower Secondary School Chemistry Lessons. (CER) Eilks, I. February, 313–319. Interlaboratory Collaborations in the Undergraduate Setting. Megehee, E. G.; Hyslop, A. G.; Rosso, R. J. September, 1345–1348. Introducing Safety Topics Using a Student-Centered Approach. (ST) Wright, S. M. October, 1519–1520. JCE LrnComOnline: Mission Statement. (JCE LrnCom Online) Zielinski, T. J.; Long, G. R. February, 335. A Networked NMR Spectrometer: Configuring a Shared Instrument. Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Kosinski, J.; Sinton, M. September, 1342–1344. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. Realizing Workplace Skills in Instrumental Analysis. Kalivas, J. H. June, 895–897. Reaping the Benefits of Chemical Education Research. (Editorial) Moore, J. W. October, 1431. Science Days: An Interdisciplinary Outreach Program. (CFK) Flynn, N. E. October, 1483–1485. Service-Learning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. Esson, J. M.; Stevens-Truss, R.; Thomas, A. August, 1168–1173. A Set of Hands-On Exercises on Conformational Analysis. Pellegrinet, S. C.; Mata, E. G. January, 73–74. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. Teaching Biochemistry at a Minority-Serving Institution: An Evaluation of the Role of Collaborative Learning as a Tool for Science Mastery. Peters, A. W. April, 571– 574. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522. Writing-Intensive Multimedia Projects in the Instrumental Methods Course. Van Ryswyk, H. January, 70–72.

The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. Molecular Diversity and Combinatorial Chemistry: Principles and Applications (Tetrahedron Organic Chemistry Series) (by Michael C. Pirrung). (BMR) Crouch, R. D. August, 1154–1156. Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical– Computational Project. Baudry, J.; Hergenrother, P. J. June, 890–894.

Commentary Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Good Chemical Measurements, Good Public Policies. (Commentary) Faulkner, L. R. February, 190–193. Introductory Chemistry Needs a Revolution. ACS and IUPAC and AAAS and ICUC Should Lead It. (Commentary) Hawkes, S. J. November, 1615–1616. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828.

Communication / Writing The ACS Prize Essay Contest. (FPI) Rice, R. E. December, 1765–1767. Are We Serious about Preparing Chemists for the 21st Century Workplace or Are We Just Teaching Chemistry? Kerr, S.; Runquist, O. February, 231–233. Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. Chemistry as General Education (re J. Chem. Educ. 2004, 81, 54–57). (Letter) Silverstein, T. P. June, 838. Chemistry Teacher Connections. (EHST) Mason, D. S. June, 809. An Industrial Chemistry Course That Optimizes the Value of Plant Tours. Hartman, J. S. February, 234– 239. It Was a Very Good Year. (Editorial) Moore, J. W. November, 1591. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) Rosenstein, I. J. April, 652–654. The Literature of Chemistry: Recommended Titles for Undergraduate Chemistry Library Collections (by Judith A. Douville). (BMR) Kovac, J. D. August, 1153. Make Your Mark in Science. Creativity, Presenting, Publishing, and Patents. A Guide for Young Scientists (by Claus Ascheron and Angela Kickuth). (BMR) Kovac, J. D. September, 1313. The Moment. Di Raddo, P. July, 984. Napoleon’s Buttons: Teaching the Role of Chemistry in History. Samet, C.; Higgins, P. J. October, 1496– 1500. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. The Origin of the Bunsen Burner. (ASK) Jensen, W. B. April, 518. Posters–Old Tool, New Tech. (FPI) Raines, B. J.; Gomez, C. G.; Williams, K. R. August, 1118–1119. Scientists and Public Policy. (Editorial) Moore, J. W. February, 183. The The Stereochemistry of Biochemical Molecules: A Subject to Revisit. Centelles, J. J.; Imperial, S. January, 75–78. Teaching Biochemistry at a Minority-Serving Institution: An Evaluation of the Role of Collaborative Learning as a Tool for Science Mastery. Peters, A. W. April, 571– 574. Telling the Stories of Chemistry. Kitson, T. M. October, 1504. Writing-Intensive Multimedia Projects in the Instrumental Methods Course. Van Ryswyk, H. January, 70–72.

Colloids Displacements of Brownian Particles in Terms of Marian von Smoluchowski’s Heuristic Model. Klein, H.; Woermann, D. November, 1642–1644. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. Growth Kinetics and Modeling of ZnO Nanoparticles. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. May, 775–778. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. Ahn, H.; Whitten, J. E. June, 909–911. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. November, 1697–1699. Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. Todebush, P. M.; Geiger, F. M. October, 1542–1545. Self-Assembled Colloidal Crystals: Visualizing Atomic Crystal Chemistry Using Microscopic Analogues of Inorganic Solids. Abrams, N. M.; Schaak, R. E. March, 450–452.

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Computational Chemistry Characterization and Classification of Lanthanides by Multivariate-Analysis Methods. Horovitz, O.; Sârbu, C. March, 473–483. Cis and Trans Isomers of Cycloalkenes. Barrows, S. E.;

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Eberlein, T. H. September, 1334–1339. Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) Whisnant, D. M.; Lever, L. S.; Howe, J. J. February, 334. Comments on Purser’s Article: “Lewis Structures are Models for Predicting Molecular Structure, Not Electronic Structure” (re J. Chem. Educ. 1999, 76, 1013– 1018). (Letter) Weinhold, F. A. April, 527–528. Computer Modeling and Research in the Classroom. Ramos, M. J.; Fernandes, P. A. July, 1021–1025. Fundamentals of Quantum Chemistry (Complementary Science Series), Second Edition (by James E. House). (BMR) Tuchler, M. July, 1002–1003. Interactive Spreadsheets in JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. August, 1263. Kmonodim, a Program for the Numerical Solution of the One-Dimensional Schrödinger Equation. Angeli, C.; Borini, S.; Cimiraglia, R. May, 795–800. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. Galembeck, S. E.; Caramori, G. F.; Romero, J. R. December, 1800–1804. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. October, 1584. Positive and Negative Temperatures in a Two-Level System: Thermodynamic and Statistical–Mechanical Perspectives. (ACL) Masthay, M. B.; Fannin, H. B. June, 867–873. Quantitative Thermodynamic Descriptions of Aromaticity. A Computational Exercise for the Organic Chemistry Laboratory. (MMEE) Gavin, T. June, 953–957. Self-Consistent Field Calculations on Atoms Using Excel. (ACL) Hoffman, G. G. September, 1418–1422. Self-Consistent Field Calculations Spreadsheet. (JCE WebWare) Hoffman, G. G. September, 1423–1424. A Simple Reduction Process for the Normal Vibrational Modes Occurring in Linear Molecules. McInerny, W. J. January, 140–144. Single-Slit Diffraction and the Uncertainty Principle. Rioux, F. August, 1210. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209. Structure and Bonding in Group 14 Congeners of Ethene: DFT Calculations in the Inorganic Chemistry Laboratory. (MMEE) Streit, B. R.; Geiger, D. K. January, 111–115. Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical– Computational Project. Baudry, J.; Hergenrother, P. J. June, 890–894. Teaching Molecular Symmetry with JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. November, 1741. Understanding Rotation about a C=C Double Bond. Barrows, S. E.; Eberlein, T. H. September, 1329– 1333.

Computer Bulletin Board Simple and Inexpensive Computer Interface to a Durrum Stopped-Flow Apparatus Tested Using the Iron(III)– Thiocyanate Reaction. (CBB) Hoag, C. M. December, 1823–1825.

Computer-Based Learning 3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. November, 1741–1742. Analog Spectrophotometers in the Digital Age: Data Acquisition on a Budget. (CET) Nazarenko, A. Y.; Nazarenko, N. A. February, 294–296. Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) Ship, N. J.; Zamble, D. B. December, 1805–1808. Antimicrobial Agents Used on Textiles. (JCE Featured Molecules) Coleman, W. F. January, 171. Application of ChemDraw NMR Tool: Correlation of Program-Generated 13C Chemical Shifts and pKa Values of para-Substituted Benzoic Acids. Wang, H. September, 1340–1341. Assessing the Effect of Web-Based Learning Tools on Student Understanding of Stoichiometry Using Knowledge Space Theory. (TECH) Arasasingham, R. D.; Taagepera, M.; Potter, F.; Martorell, I.; Lonjers, S. August, 1251–1262.


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Subject Index • Volume 82 • 2005


Azulene Chemistry. (JCE Featured Molecules) Coleman, W. F. November, 1688. Bond Length Dependence on Quantum States as Shown by Spectroscopy. Lim, K. F. January, 145–149. Characterization and Classification of Lanthanides by Multivariate-Analysis Methods. Horovitz, O.; Sârbu, C. March, 473–483. Chemistry of Blood Types. (JCE Featured Molecules) Coleman, W. F. December, 1853. The Chemistry of Coffee. (JCE Featured Molecules) Coleman, W. F. August, 1167. A Chemometrics Module for an Undergraduate Instrumental Analysis Chemistry Course. Msimanga, H. Z.; Elkins, P.; Tata, S. K.; Smith, D. R. March, 415–424. Circular Birefringence and Circular Dichroism Simulation. (JCE SymMath) Brown, Z.; Starkey, R. July, 1100. Compounds That Promote Seed Germination. (JCE Featured Molecules) Coleman, W. F. March, 488. Computing Liquid–Vapor Phase Diagrams for Non-Ideal Binary Mixtures. (JCE SymMath) Chen, F. M. July, 1100. Connected Chemistry—A Novel Modeling Environment for the Chemistry Classroom. Stieff, M. March, 489– 493. Connected Chemistry. (JCE WebWare) Stieff, M. March, 494. Constructivism and Information Technology at Columbia: A Journey from the Wilderness to the Promised Land. 2004 George C. Pimentel Award, sponsored by Dow Chemical Co.. (Award Address) Turro, N. J. September, 1292–1301. Correction to “Promoting Graphical Thinking: Using Temperature and a Graphing Calculator To Teach Kinetics Concepts” (re J. Chem. Educ. 2004, 81, 69– 71). (Correction) Cortés-Figueroa, J. E.; MooreRusso, D. A. August, 1151. Data Analysis (Damped Oscillations) Using the Genfit Function. (JCE SymMath) Poshusta, R. D. July, 1101. Exploring the Uncertainty Principle. (JCE SymMath) Chen, F. M. July, 1101. First-Order or Second-Order Kinetics? A Monte Carlo Answer. Tellinghuisen, J. November, 1709–1714. Further Analysis of Boiling Points of Small Molecules, CHwFxClyBrz. Beauchamp, G. December, 1842–1845. Global Least-Squares Analysis of the IR Rotation–Vibration Spectrum of HCl. Tellinghuisen, J. January, 150– 156. Growth Kinetics and Modeling of ZnO Nanoparticles. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. May, 775–778. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) Herman, C.; Casiday, R. E.; Deppe, R. K.; Gilbertson, M.; Spees, W. M.; Holten, D.; Frey, R. F. December, 1871–1879. Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. Casey, R. E.; Pittman, F. A. February, 260–264. An Introduction to Statistical Mechanics. (JCE SymMath) Francl, M. M. January, 175. JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) Barrie, P. J. June, 958–959. Kmonodim, a Program for the Numerical Solution of the One-Dimensional Schrödinger Equation. Angeli, C.; Borini, S.; Cimiraglia, R. May, 795–800. A Lattice Energy Spreadsheet. (JCE WebWare) King, C. October, 1584. Learning Molecular Geometry and Symmetry through Quantum Computations and Mathcad Exercises. (JCE SymMath) Chen, F. M. January, 174. Learning To Search in Ten Easy Steps: A Review of a Chemical Information Course. (CII) Currano, J. N. March, 484–488. Mage: A Tool for Developing Interactive Instructional Graphics. (JCE WebWare) Pavkovic, S. F. January, 167–171. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Menthol Stereoisomers. (JCE Featured Molecules) Coleman, W. F. July, 1048. More Interactive Spreadsheets in JCE WebWare. (JCE

WebWare) Coleman, W. F.; Fedosky, E. W. September, 1423. Moth Repellent Chemicals. (JCE Featured Molecules) Coleman, W. F. September, 1324. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. Galembeck, S. E.; Caramori, G. F.; Romero, J. R. December, 1800–1804. Nicotine Smoke Chemistry. (JCE Featured Molecules) Coleman, W. F. October, 1583. ⁄ Nontypical Brønsted’s Acids and Bases. Micha lowski, T.; Rymanowski, M.; Pietrzyk, A. March, 470–472. Organic Xenobiotics. (JCE Featured Molecules) Coleman, W. F. February, 264. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. June, 960. Peer-Reviewed WebWare: Connected Chemistry. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. March, 494. Photosystem II Oxygen-Evolving Complex. (JCE Featured Molecules) Coleman, W. F. May, 800. The Physics Teacher: Sliders, Staircases, and Seduction. (ROJPhysTea) Clark, R. W. February, 200. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) Celej, M. S.; Fidelio, G. D.; Dassie, S. A. January, 85–92. Quantitative Thermodynamic Descriptions of Aromaticity. A Computational Exercise for the Organic Chemistry Laboratory. (MMEE) Gavin, T. June, 953–957. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Reaction to “Chemistry Is Not a Laboratory Science”— Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 997–998. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. Response to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Morton, S. D. July, 997. Revisiting Millikan’s Oil-Drop Experiment. Pearson, E. F. June, 851–854. Self-Consistent Field Calculations on Atoms Using Excel. (ACL) Hoffman, G. G. September, 1418–1422. Shikimic Acid. (JCE Featured Molecules) Coleman, W. F. April, 656. Simple and Inexpensive Computer Interface to a Durrum Stopped-Flow Apparatus Tested Using the Iron(III)– Thiocyanate Reaction. (CBB) Hoag, C. M. December, 1823–1825. Single-Slit Diffraction and the Uncertainty Principle. Rioux, F. August, 1210. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. Johnson, A. R.; McQueen, T. M.; Rodolfa, K. T. March, 408–414. Spectrophotometric Determination of the Dissociation Constant of an Acid–Base Indicator Using a Mathematical Deconvolution Technique. Alter, K. P.; Molloy, J. L.; Niemeyer, E. D. November, 1682–1685. Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical– Computational Project. Baudry, J.; Hergenrother, P. J. June, 890–894. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100. SymMath, Fair Use, and Additions to the Collection. (JCE SymMath) Zielinski, T. J. January, 172–174. Taking Issue with “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Stephens, C. E. July, 998. Taking Issue with “Chemistry Is Not a Laboratory Science”—Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 998–999. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. Antler, M.; Salin, E.; Wilczek-Vera, G. March, 425–427. Understanding Least Squares through Monte Carlo Calculations. Tellinghuisen, J. January, 157–166. Using a Computer To Help Understand How Symmetry Principles Reduce Calculations. (JCE SymMath) Kijewski, L. January, 174. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735.

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Weekly Molecules: A Cure for the 8:30 a.m. Blues. (JCE Featured Molecules) Coleman, W. F. June, 850.

Concepts in Biochemistry Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) Celej, M. S.; Fidelio, G. D.; Dassie, S. A. January, 85–92.

Conductivity Correction to “Heat and Temperature Conductivity of Baths” (re J. Chem. Educ. 2005, 82, 380–381). (Correction) Lunelli, B. June, 839. Heat and Temperature Conductivity of Baths (re J. Chem. Educ. 2002, 79, 1109). (Letter) Lunelli, B. March, 380–381. Heat and Temperature Conductivity of Baths—Author Reply (re J. Chem. Educ. 2002, 79, 1109). (Letter) Joling, E. March, 381. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667– 1670.

Conferences 2005 ACS Academic Employment Initiative. March, 367. ACS National Meeting. About San Diego. Morris, L. W. March, 366–367. ACS National Meeting. About Washington, DC. Morris, L. W. August, 1134–1135. ACS National Meeting. ACS Presidential Events: San Diego. Carroll, W. F., Jr. March, 364. ACS National Meeting. CHED Events: San Diego. Sarquis, J. L.; Greer, S. March, 365. ACS National Meeting. CHED Events: Washington, DC. Greer, S. August, 1136–1137. ACS National Meeting. Presidential Events. Carroll, W. F., Jr. August, 1131. ACS National Meeting. Program for the Division of Chemical Education: San Diego, March 12–17, 2005. Middlecamp, C. H.; Stone, K.; Muzzi, C. M. March, 355–361. ACS National Meeting. Program for the Division of Chemical Education: Washington, DC, August 28– September 1, 2005. Middlecamp, C. H.; Bergo, C. H.; Shanbhag, V. August, 1123–1130. ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363. ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. ACS’s Adopt a Teacher Program. (EHST) Mason, D. S. March, 345. Chemistry Teacher Connections. (EHST) Mason, D. S. June, 809. COAChing Women To Succeed in Academic Careers in the Chemical Sciences. Richmond, G. L. March, 351– 353. Education in Environmental Chemistry: Setting the Agenda and Recommending Action. A Workshop Report Summary. Zoller, U. August, 1237–1240. Gedanken Experiments. (EHST) Mason, D. S. November, 1593. Introductory Chemistry Needs a Revolution. ACS and IUPAC and AAAS and ICUC Should Lead It. (Commentary) Hawkes, S. J. November, 1615–1616. JCE: The Leader of Change. (EHST) Mason, D. S. December, 1753. Light Up Your Life. (EHST) Mason, D. S. January, 9. Meeting Report: Chemistry Everywhere. A Brief Report on the 18th Biennial Conference on Chemical Education. Meints, C.; Burke, K. A. January, 17–20. Meeting Reports: International Congress of Chemistry and Chemical Engineering. Reeves, J. H. February, 201. Molecular Visualization in Science Education: An Evaluation of an NSF-Sponsored Workshop. (CER) José, T.; Williamson, V. M. June, 937–943. News & Announcements. January, 33–35; February, 205–207; March, 377–379; April, 523–525; May, 679–681; June, 833–835; July, 993–995; August, 1145–1148; September, 1306–1308; October, 1467–

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www.JCE.DivChed.org/Journal/Search/ 1470; November, 1620–1622; December, 1770– 1773. “Only When You Know the Hazards…”. (EHST) Jacobsen, E. K. July, 969. Q & A Session. (EHST) Jacobsen, E. K. September, 1273. Report: CHED Outreach Efforts. Hoffman, M. Z. September, 1302. Undergraduate Transitions: Enhancing Student Success. (ACS) Wesemann, J. February, 196–198. The World According to Nanotechnology. (EHST) Mason, D. S. May, 665.

Conformational Analysis Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. June, 912–915. A Set of Hands-On Exercises on Conformational Analysis. Pellegrinet, S. C.; Mata, E. G. January, 73–74.

Constitutional Isomers Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. March, 466–467. A Set of Hands-On Exercises on Conformational Analysis. Pellegrinet, S. C.; Mata, E. G. January, 73–74.

Constructivism Assessment of Molecular Construction in Undergraduate Biochemistry. Booth, D.; Bateman, R. C., Jr.; Sirochman, R.; Richardson, D. C.; Richardson, J. S.; Weiner, S. W.; Farwell, M.; Putnam-Evans, C. December, 1854–1858. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) Kruse, R. A.; Roehrig, G. H. August, 1246–1250. Connected Chemistry—A Novel Modeling Environment for the Chemistry Classroom. Stieff, M. March, 489– 493. Constructivism and Information Technology at Columbia: A Journey from the Wilderness to the Promised Land. 2004 George C. Pimentel Award, sponsored by Dow Chemical Co.. (Award Address) Turro, N. J. September, 1292–1301. The Effects of Thinking Aloud Pair Problem Solving on High School Students’ Chemistry Problem-Solving Performance and Verbal Interaction. (CER) Jeon, K.; Huffman, D.; Noh, T. October, 1558–1564. Experiences and Reflections about Teaching Atomic Structure in a Jigsaw Classroom in Lower Secondary School Chemistry Lessons. (CER) Eilks, I. February, 313–319. Introducing Safety Topics Using a Student-Centered Approach. (ST) Wright, S. M. October, 1519–1520. “It Gets Me to the Product”: How Students Propose Organic Mechanisms. (CER) Bhattacharyya, G.; Bodner, G. M. September, 1402–1407. Teaching Biochemistry at a Minority-Serving Institution: An Evaluation of the Role of Collaborative Learning as a Tool for Science Mastery. Peters, A. W. April, 571– 574. Teaching Significant Figures Using Age Conversions. (AA) Crute, T. D. October, 1507–1508.

Consumer Chemistry 8:31 a.m. Belly Flop: Attitude Adjustment through Weekly Feature Molecules. Franklin, S. J.; Pienta, N. J.; Fry, M. D. June, 847–850. The ACS Prize Essay Contest. (FPI) Rice, R. E. December, 1765–1767. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. Bracken, J. D.; Tietz, D. May, 762–764. Brewing Science in the Chemistry Laboratory: A “Mashing” Investigation of Starch and Carbohydrates. Pelter, M. W.; McQuade, J. December, 1811–1812. Chemistry of Durable and Regenerable Biocidal Textiles.

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(POC) Sun, G.; Worley, S. D. January, 60–64. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. June, 924–925. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020. The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. Barreto, M. C. January, 103–104. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E.; Smith, C. J. February, 265–268. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) Wright, S. W. April, 542–544. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B.

tural Elucidation of Polynuclear Thiolate Complexes. Cerrada, E.; Laguna, M. April, 630–633. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Crystallographic Study of Manganese(III) Acetylacetonate: An Advanced Undergraduate Project with Unexpected Challenges. Geremia, S.; Demitri, N. March, 460–465. Fifty Ways To Make Boric Acid (with Apologies to Paul Simon). Davis, C. M. April, 541. Hydrolysis of Pentaamminechlorocobalt(III): A Unified Mechanistic View. González-Ferrer, G.; Martínez López, M. November, 1671–1673. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Polypyrazolylborates: Scorpionates. (POC) Trofimenko, S. November, 1715–1720. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667– 1670. Simple and Inexpensive Computer Interface to a Durrum Stopped-Flow Apparatus Tested Using the Iron(III)– Thiocyanate Reaction. (CBB) Hoag, C. M. December, 1823–1825. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. Johnson, A. R.; McQueen, T. M.; Rodolfa, K. T. March, 408–414. Valence, Covalence, Hypervalence, Oxidation State, and Coordination Number. Smith, D. W. August, 1202– 1204.

Continuing Education

Copper

Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Young, J. A. December, 1775. Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. Chirality Made Simple: A 1- and 2-Dimensional Introduction to Stereochemistry. Gawley, R. E. July, 1009– 1012. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) Kruse, R. A.; Roehrig, G. H. August, 1246–1250. Constructivism and Information Technology at Columbia: A Journey from the Wilderness to the Promised Land. 2004 George C. Pimentel Award, sponsored by Dow Chemical Co.. (Award Address) Turro, N. J. September, 1292–1301. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. Introduction to Protein and Peptide Analysis with Mass Spectrometry (by Fred Klink). (BMR) Harvey, D. T. July, 1003–1004. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Make Your Mark in Science. Creativity, Presenting, Publishing, and Patents. A Guide for Young Scientists (by Claus Ascheron and Angela Kickuth). (BMR) Kovac, J. D. September, 1313. Report: CHED Outreach Efforts. Hoffman, M. Z. September, 1302. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675.

Copper(I) Chloride. (CLIP) Young, J. A. July, 991. Copper(II) Acetate Monohydrate. (CLIP) Young, J. A. July, 990. Copper(II) Nitrate Trihydrate. (CLIP) Young, J. A. March, 375. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. Paddock, J. R.; Maghasi, A. T.; Heineman, W. R.; Seliskar, C. J. September, 1370–1371. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. Williams, G. L.; Vohs, J. K.; Brege, J. J.; Fahlman, B. D. May, 771– 774. Synthesis and Analysis of Copper Hydroxy Double Salts. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. November, 1662.

Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Combined 31P and 1H NMR Experiments in the Struc-


Correction to “A Model for the Chemical Bond” (re J. Chem. Educ. 2004, 81, 427–435). (Correction) Magnasco, V. September, 1311. Correction to “DeLorenzo’s Four Interesting Mysteries Verified” (re J. Chem. Educ. 2002, 79, 1217–1219). (Correction) Ferriols-Pavico, J. M. August, 1151. Correction to “Heat and Temperature Conductivity of Baths” (re J. Chem. Educ. 2005, 82, 380–381). (Correction) Lunelli, B. June, 839. Correction to “Henry’s Law: A Retrospective” (re J. Chem. Educ. 2004, 81, 1647–1652). (Correction) Rosenberg, R. M.; Peticolas, W. January, 38. Correction to “Promoting Graphical Thinking: Using Temperature and a Graphing Calculator To Teach Kinetics Concepts” (re J. Chem. Educ. 2004, 81, 69– 71). (Correction) Cortés-Figueroa, J. E.; MooreRusso, D. A. August, 1151.

Cost-Effective Teacher

Coordination Compounds

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Corrections

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Analog Spectrophotometers in the Digital Age: Data Acquisition on a Budget. (CET) Nazarenko, A. Y.; Nazarenko, N. A. February, 294–296. Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) Alibrandi, G.; D’Aliberti, S.; Coppolino, S.; Villari, A.; Micali, N. March, 442–444.


1907



8:31 a.m. Belly Flop: Attitude Adjustment through Weekly Feature Molecules. Franklin, S. J.; Pienta, N. J.; Fry, M. D. June, 847–850. Are We Serious about Preparing Chemists for the 21st Century Workplace or Are We Just Teaching Chemistry? Kerr, S.; Runquist, O. February, 231–233. The Art and Science of Light. An Interdisciplinary Teaching and Learning Experience. (IC) Bopegedera, A. M. January, 55–59. Assessing the Effect of Web-Based Learning Tools on Student Understanding of Stoichiometry Using Knowl-

edge Space Theory. (TECH) Arasasingham, R. D.; Taagepera, M.; Potter, F.; Martorell, I.; Lonjers, S. August, 1251–1262. Chemical Demonstrations as the Laboratory Component in Nonscience Majors Courses. An Outreach-Targeted Approach. Ophardt, C. E.; Applebee, M. S.; Losey, E. N. August, 1174–1177. Chemistry as General Education (re J. Chem. Educ. 2004, 81, 54–57). (Letter) Silverstein, T. P. June, 838. Chemistry, The Central Science? The History of the High School Science Sequence. (SSC) Sheppard, K.; Robbins, D. M. April, 561–566. A Chemometrics Module for an Undergraduate Instrumental Analysis Chemistry Course. Msimanga, H. Z.; Elkins, P.; Tata, S. K.; Smith, D. R. March, 415–424. Community-Based Research. A New Paradigm for Undergraduate Research in the Sciences. (CUR) Karukstis, K. K. January, 15–16. Connected Chemistry—A Novel Modeling Environment for the Chemistry Classroom. Stieff, M. March, 489– 493. Constructivism and Information Technology at Columbia: A Journey from the Wilderness to the Promised Land. 2004 George C. Pimentel Award, sponsored by Dow Chemical Co.. (Award Address) Turro, N. J. September, 1292–1301. A Cool Drink! An Introduction to Concentrations. (JCE Classroom Activity) Bedrossian, M. February, 240A– 240B. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Doing Science and Asking Questions II: An Exercise That Generates Questions. Middlecamp, C. H.; Nickel, A. L. August, 1181–1186. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) Wally, L. M.; Levinger, N. E.; Grainger, D. W. October, 1489–1495. Equilibria That Shift Left upon Addition of More Reactant. Lacy, J. E. August, 1192–1193. Equilibrium Constants and Water Activity. (Letter) Keeports, D. July, 999. The Evolution of a Green Chemistry Laboratory Experiment: Greener Brominations of Stilbene. (GRN) McKenzie, L. C.; Huffman, L. M.; Hutchison, J. E. February, 306–310. Exploration of the Chemistry of Plants: A General Education Course. (IC) Séquin, M. December, 1787– 1790. Fully Exploiting the Potential of the Periodic Table through Pattern Recognition. Schultz, E. November, 1649–1657. A General Chemistry and Precalculus First-Year Interest Group (FIG): Effect on Retention, Skills, and Attitudes. Pence, L. E.; Workman, H. J.; Haruta, M. E. January, 65–69. Global Leadership in Science and Technology. (Editorial) Moore, J. W. June, 807. Going Green: Lecture Assignments and Lab Experiences for the College Curriculum. (ACS) Haack, J. A.; Hutchison, J. E.; Kirchhoff, M. M.; Levy, I. J. July, 974–976. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. Imagination. (Editorial) Moore, J. W. May, 663. Implementing the Professional Development Standards: A Research Department’s Innovative Masters Degree Program for High School Chemistry Teachers. Blasie, C. W.; Palladino, G. F. April, 567–570. An Industrial Chemistry Course That Optimizes the Value of Plant Tours. Hartman, J. S. February, 234– 239. The Inquiry Wheel, an Alternative to the Scientific Method (re J. Chem. Educ. 2004, 81, 791–792. (Letter) Wink, D. J. May, 682. The Inquiry Wheel, an Alternative to the Scientific Method—Author Reply (re J. Chem. Educ. 2004, 81, 791–792. (Letter) Harwood, W. S. May, 682. Instrumental Proficiency Program for Undergraduates. Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. June, 898– 900. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) Herman, C.; Casiday, R. E.; Deppe, R. K.; Gilbertson, M.; Spees, W. M.; Holten, D.; Frey, R. F. December, 1871–1879. Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. Casey, R.

1908

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A Convenient Method for Dispensing Organometallic Reagents. (CET) Newton, T. A. June, 936. Low-Cost Thermocouple Signal-Conditioning Module. (CET) Lenzi, M. K.; Silva, F. M.; Lima, E. L.; Pinto, J. C.; Cunningham, M. F. January, 122–123. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. A Sensitive Nitrate Ion-Selective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) Bendikov, T. A.; Harmon, T. C. March, 439–441. A Small-Scale Low-Cost Gas Chromatograph. (CET) Gros, N.; Vrtacˇnik, M. February, 291–293. Weighing Paper Substitute. (CET) Ruekberg, B. April, 620.

Covalent Bonding Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Correction to “A Model for the Chemical Bond” (re J. Chem. Educ. 2004, 81, 427–435). (Correction) Magnasco, V. September, 1311. Electronegativity and the Bond Triangle. Meek, T. L.; Garner, L. D. February, 325–333. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209. Valence, Covalence, Hypervalence, Oxidation State, and Coordination Number. Smith, D. W. August, 1202– 1204. Where Should the Nuclei Be Located? Liu, Y.; Liu, Y.; Drew, M. February, 320–322.

Crystal Field / Ligand Field Theory Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. The Meaning of d-Orbital Labels. Ashkenazi, G. February, 323–324.

Crystals / Crystallography Chiral Crystallization of Ethylenediamine Sulfate. Koby, L.; Ningappa, J. B.; Dakessian, M.; Cuccia, L. A. July, 1043–1045. Crystallographic Study of Manganese(III) Acetylacetonate: An Advanced Undergraduate Project with Unexpected Challenges. Geremia, S.; Demitri, N. March, 460–465. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557. A Lattice Energy Spreadsheet. (JCE WebWare) King, C. October, 1584. Nantribology: Rubbing on a Small Scale. Dickinson, J. T. May, 734–742. The Pythagorean Theorem and the Solid State. Kelly, B. S.; Splittgerber, A. G. May, 756–761. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. Spectacular Breeding of Crystals on Silica Gel. Piekos, R.; Teodorczyk, J. March, 448–449. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681.

Curriculum



E.; Pittman, F. A. February, 260–264. Introductory Chemistry Needs a Revolution. ACS and IUPAC and AAAS and ICUC Should Lead It. (Commentary) Hawkes, S. J. November, 1615–1616. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? de Levie, R. June, 885–888. JCE: The Leader of Change. (EHST) Mason, D. S. December, 1753. Learning To Search in Ten Easy Steps: A Review of a Chemical Information Course. (CII) Currano, J. N. March, 484–488. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) Rosenstein, I. J. April, 652–654. The Match Game: A Discovery of the Laboratory Equipment Used in General Chemistry. (VIEW) Greengold, S. L. April, 547–548. Misconceptions in Sign Conventions: Flipping the Electric Dipole Moment. Hovick, J. W.; Poler, J. C. June, 889. Molecular Visualization in Science Education: An Evaluation of an NSF-Sponsored Workshop. (CER) José, T.; Williamson, V. M. June, 937–943. Napoleon’s Buttons: Teaching the Role of Chemistry in History. Samet, C.; Higgins, P. J. October, 1496– 1500. A Networked NMR Spectrometer: Configuring a Shared Instrument. Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Kosinski, J.; Sinton, M. September, 1342–1344. A Note on Dalton’s Law: Myths, Facts, and Implementation. Missen, R. W.; Smith, W. R. August, 1197– 1201. On Teaching Ionic Activity Effects: What, When, and Where? de Levie, R. June, 878–884. On-Site Reviews and Institutes To Assess and Strengthen Undergraduate Departments and Programs. (CUR) Karukstis, K. K.; Rowlett, R. April, 512–513. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. The Reaction Quotient (Q) IS Useful After All (re J. Chem. Educ. 2005, 82, 406–407. (Letter) Silverstein, T. P. August, 1149. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Reaction to “Chemistry Is Not a Laboratory Science”— Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 997–998. Reaction to “Something Might Be Gaining on Us” (re J. Chem. Educ. 2004, 81, 1079). (Letter) Dybowski, C. R. February, 210–211. Response to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Morton, S. D. July, 997. Self-Consistent Field Calculations on Atoms Using Excel. (ACL) Hoffman, G. G. September, 1418–1422. Service-Learning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. Esson, J. M.; Stevens-Truss, R.; Thomas, A. August, 1168–1173. Showcasing Successful Practices That Enhance a Research-Supportive Undergraduate Curriculum. (CUR) Karukstis, K. K. October, 1440–1441. A Six-Year Study of the Effects of a Remedial Course in the Chemistry Curriculum. (CER) Bently, A. B.; Gellene, G. I. January, 125–130. STEMming the Tide: Using Career Week Activities To Recruit Future Chemists. Bopegedera, A. M. October, 1505–1506. The The Stereochemistry of Biochemical Molecules: A Subject to Revisit. Centelles, J. J.; Imperial, S. January, 75–78. Stereogenic Centers and Axes: A Comparison of the Chiral Topologies Available to Cabcd and abC=C=Ccd. Lloyd-Williams, P.; Giralt, E. July, 1031–1033. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Systemic Approach to Teaching and Learning. (Letter) Lagowski, J. J. February, 211. Taking Issue with “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Stephens, C. E. July, 998. Taking Issue with “Chemistry Is Not a Laboratory Science”—Author Reply (re J. Chem. Educ. 2004, 81,

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www.JCE.DivCHED.org


Staff. October, 1488A–1488B. A Methane Balloon Inflation Chamber. (TD) Czerwinski, C. J.; Cordes, T. J. February, 248–250. A Modified Demonstration of the Catalytic Decomposition of Hydrogen Peroxide. (TD) Trujillo, C. A. June, 855. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. Poly(Vinyl Alcohol). (CLIP) Young, J. A. October, 1466. The q/T Paradox: Which “Contains More Heat”, a Cup of Coffee at 95 °C or a Liter of Icewater? (TD) Vitz, E.; Schuman, M. J. June, 856–860. Revisiting the Electric Pickle Demonstration. (TD) Rizzo, M. M.; Halmi, T. A.; Jircitano, A. J.; Kociolek, M. G.; Magraw, J. A. April, 545–546. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) Wright, S. W. April, 542–544. Science Days: An Interdisciplinary Outreach Program. (CFK) Flynn, N. E. October, 1483–1485. Simple Dynamic Models for Hydrogen Bonding Using Velcro-Polarized Molecular Models. Schultz, E. March, 401–405. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. Johnson, A. R.; McQueen, T. M.; Rodolfa, K. T. March, 408–414. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. The Student-to-Student Chemistry Initiative: The Impact of Chemistry Demonstration Programs Presented by High School Students at Elementary Schools. Voegel, P. D.; Quashnock, K. A.; Heil, K. M. April, 634–636. Sublimation of Iodine at Various Pressures. Mutlipurpose Experiments in Inorganic and Physical Chemistry. Leenson, I. A. February, 241–245. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) Harris, H. H. April, 530–531.

1257). (Letter) Hawkes, S. J. July, 998–999. Teaching Biochemistry at a Minority-Serving Institution: An Evaluation of the Role of Collaborative Learning as a Tool for Science Mastery. Peters, A. W. April, 571– 574. Thermodynamics of the Relationship between Lattice Energy and Lattice Enthalpy. Jenkins, H. D. June, 950–952. Undergraduate Transitions: Enhancing Student Success. (ACS) Wesemann, J. February, 196–198. Understanding Attrition in an Introductory Chemistry Sequence Following Successful Completion of a Remedial Course. (CER) Jones, K. B.; Gellene, G. I. August, 1241–1245. Valence, Covalence, Hypervalence, Oxidation State, and Coordination Number. Smith, D. W. August, 1202– 1204. Writing-Intensive Multimedia Projects in the Instrumental Methods Course. Van Ryswyk, H. January, 70–72. “You’re Repulsive!”—Teaching VSEPR in a Not-So-Elegant Way. Liu, R. S. April, 558–560.

Demonstrations A 3D Model of Double-Helical DNA Showing Variable Chemical Details. Cady, S. January, 79–84. Balloon–Toy of Many Colors. (FPI) Williams, K. R. October, 1448–1449. Bond Length Dependence on Quantum States as Shown by Spectroscopy. Lim, K. F. January, 145–149. Chemical Demonstrations as the Laboratory Component in Nonscience Majors Courses. An Outreach-Targeted Approach. Ophardt, C. E.; Applebee, M. S.; Losey, E. N. August, 1174–1177. Chemiluminescent Oscillating Demonstrations: The Chemical Buoy, the Lighting Wave, and the Ghostly Cylinder. (TD) Prypsztejn, H. E. January, 53–54. Chemistry Comes Alive!, Volume 7. Abstract of Special Issue 32, a CD-ROM of Flames and Explosions. (JCE Software) Bain, R.; Jacobsen, J. J.; Maynard, J. H.; Moore, J. W. July, 1102–1104. Communicating Science to the Public through a University–Museum Partnership. Payne, A. C.; deProphetis, W. A.; Ellis, A. B.; Derenne, T. G.; Zenner, G. M.; Crone, W. C. May, 743–750. Concerning “A Reaction That Takes Place in Beakers but Not in Conical Flasks: A Catalysis-Related Demonstration” (re J. Chem. Educ. 2004, 81, 364). (Letter) Espenson, J. H. April, 527. Correction to “Promoting Graphical Thinking: Using Temperature and a Graphing Calculator To Teach Kinetics Concepts” (re J. Chem. Educ. 2004, 81, 69– 71). (Correction) Cortés-Figueroa, J. E.; MooreRusso, D. A. August, 1151. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020. Demonstrating Energy Migration in Coupled Oscillators: A Central Concept in the Theory of Unimolecular Reactions. (TD) Marcotte, R. E. October, 1530–1531. A Demonstration of Sample Segregation. (TD) Fritz, M. D. February, 255–256. A Device To Emulate Diffusion and Thermal Conductivity Using Water Flow. (TD) Blanck, H. F. October, 1523–1529. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) Oliver-Hoyo, M. T.; Switzer, W. L., III. February, 251–254. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. February, 257–259. An Interactive Classroom Activity Demonstrating Reaction Mechanisms and Rate-Determining Steps. (AA) Jennings, L. D.; Keller, S. W. April, 549–550. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. Luminol (3-Aminophthalhydrazide). (CLIP) Young, J. A. October, 1465. Mage: A Tool for Developing Interactive Instructional Graphics. (JCE WebWare) Pavkovic, S. F. January, 167–171. Memory Metal. (JCE Classroom Activity) JCE Editorial

www.JCE.DivCHED.org


Descriptive Chemistry 8:31 a.m. Belly Flop: Attitude Adjustment through Weekly Feature Molecules. Franklin, S. J.; Pienta, N. J.; Fry, M. D. June, 847–850. Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) Kruse, R. A.; Roehrig, G. H. August, 1246–1250. Correction to “DeLorenzo’s Four Interesting Mysteries Verified” (re J. Chem. Educ. 2002, 79, 1217–1219). (Correction) Ferriols-Pavico, J. M. August, 1151. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; Mayen-Mondragon, R.; Moran-Moran, M. T.; Alatorre-Ordaz, A.; Mattson, B.; Eskestrand, S. October, 1546–1548. More Elementary Riddles. Cunningham, K. D. April, 539–540. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. Properties of the Lanthanide Metals: Correlations and Discontinuities (re J. Chem. Educ. 2005, 82, 473– 483). (Letter) Laing, M. November, 1623. Sublimation of Iodine at Various Pressures. Mutlipurpose Experiments in Inorganic and Physical Chemistry. Leenson, I. A. February, 241–245. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B.

Diastereomers The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051– 1052. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. Baar, M. R.; Cerrone-Szakal, A. L. July, 1040–1042. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389.

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Distance Learning / Self Instruction Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) Alibrandi, G.; D’Aliberti, S.; Coppolino, S.; Villari, A.; Micali, N. March, 442– 444. Faculty Guide for Moving Teaching and Learning to the Web, Second Edition (by Judith V. Boettcher and Rita-Marie Conrad). (BMR) Pienta, N. J. July, 1000. Instrumental Proficiency Program for Undergraduates. Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. June, 898– 900. Introducing JCE LivTexts: Physical Chemistry. (JCE LivTexts) Zielinski, T. J. December, 1880. JCE LivTexts: Living Textbooks for Chemistry. (Editorial) Moore, J. W. December, 1751. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. Quantum States of Atoms and Molecules. (JCE LivTexts) Hanson, D. M.; Zielinski, T. J.; Harvey, E.; Sweeney, R. December, 1880. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B.

Drugs / Pharmaceuticals Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. Exploration of the Chemistry of Plants: A General Education Course. (IC) Séquin, M. December, 1787– 1790. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Nature: Environmental Problems and New Hope for the Treatment of Malaria. (ROJNature) Heinhorst, S.; Cannon, G. February, 186–188. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. Pharmaceutical Applications of Ion-Exchange Resins. (POC) Elder, D. P. April, 575–587. Presumptive and Confirmatory Drug Tests. Anderson, C. December, 1809–1810. Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512. Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical– Computational Project. Baudry, J.; Hergenrother, P. J. June, 890–894. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400.

Dyes / Pigments Addendum to “Laser-Pointer-Based Spectrometer for Endpoint Detection of EDTA Titrations”. (Letter) Dahm, C. E. May, 683. Chemiluminescent Oscillating Demonstrations: The Chemical Buoy, the Lighting Wave, and the Ghostly Cylinder. (TD) Prypsztejn, H. E. January, 53–54. A Closer Look at Acid–Base Olfactory Titrations. Neppel, K.; Oliver-Hoyo, M. T.; Queen, C.; Reed, N. April, 607–610. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. December, 1815–1819. Dynamic and Equilibrium Adsorption Experiments. Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Da Silva, F. A.; Silva, C. M. June, 919–923. Exploration of the Chemistry of Plants: A General Education Course. (IC) Séquin, M. December, 1787– 1790. A LED Microtiter Plate Reader. Gordon, J. S.; Tye, S. June, 903–905. M&M Orange (re J. Chem. Educ. 2002, 79, 847). (Letter) Elder, J. W. February, 209. M&M Orange—Author Reply (re J. Chem. Educ. 2002, 79, 847). (Letter) Birdwhistell, K. R.; Spence, T. G. February, 209. Teaching Data Acquisition. An Undergraduate Experi-


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Subject Index • Volume 82 • 2005 ment in the Advanced Analytical Chemistry Laboratory. Antler, M.; Salin, E.; Wilczek-Vera, G. March, 425–427. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918.

Editorial Community of Effort. (Editorial) Moore, J. W. March, 343. Developing and Measuring Proficiency. (Editorial) Moore, J. W. April, 503. Education of Teachers for Excellence. (Editorial) Moore, J. W. August, 1111. Freeing Information. (Editorial) Moore, J. W. January, 7. Global Leadership in Science and Technology. (Editorial) Moore, J. W. June, 807. Imagination. (Editorial) Moore, J. W. May, 663. It Was a Very Good Year. (Editorial) Moore, J. W. November, 1591. JCE LivTexts: Living Textbooks for Chemistry. (Editorial) Moore, J. W. December, 1751. Keeping Chemistry and Chemists Safe. (Editorial) Moore, J. W. July, 967. Reaping the Benefits of Chemical Education Research. (Editorial) Moore, J. W. October, 1431. Scientists and Public Policy. (Editorial) Moore, J. W. February, 183. Teaching Science Amid Controversy. (Editorial) Moore, J. W. September, 1271.

Electrochemistry


Research Advances: Horseradish, Peroxide Mixture May End War of the Noses; Even Low Levels of Benzene Are Hemotoxic; New “Nuclear Battery” Runs 10 Years, 10 Times More Powerful. (ROJResAdv) King, A. G. November, 1594–1597. A Sensitive Nitrate Ion-Selective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) Bendikov, T. A.; Harmon, T. C. March, 439–441. Single-Molecule Electronic Measurements with Metal Electrodes. Lindsay, S. May, 727–733. Surface pKa of Self-Assembled Monolayers. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. May, 779– 781. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. May, 782–786. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. May, 765–768. Variable Effects during Polymerization. Lunsford, S. K. December, 1830–1832.

Electrolytic / Galvanic Cells / Potentials Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548.

Electrophoresis Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. Mills, N. S.; Spence, J. D.; Bushey, M. M. August, 1226–1228. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. January, 93–95. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598.

Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. ColladoSánchez, C.; Hernández-Brito, J. J.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. February, 271–273. Electrochemical Fabrication of Metallic Quantum Wires. Tao, N. May, 720–726. Electrochemistry at Nanometer-Scaled Electrodes. Watkins, J. J.; Zhang, B.; White, H. S. May, 712– 719. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. FríasFerrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. September, 1395–1398. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. On Teaching Ionic Activity Effects: What, When, and Where? de Levie, R. June, 878–884. The Origins of Positive and Negative in Electricity. (ASK) Jensen, W. B. July, 988. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Procedure for Decomposing a Redox Reaction into HalfReactions. Fishtik, I.; Berka, L. H. April, 553–557. Reaction to “The Concept of Ionic Strength Eighty Years after Its Introduction in Chemistry” (re J. Chem. Educ. 2004, 81, 750–753). (Letter) Glasser, L. February, 212.

Christmas in October. (EHST) Jacobsen, E. K. October, 1433. Classroom Credit. (EHST) Jacobsen, E. K. February, 185. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) Wally, L. M.; Levinger, N. E.; Grainger, D. W. October, 1489–1495. Finding Chemical Anchors in the Kitchen. (CFK) Haim, L. February, 228–230. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. February, 257–259. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. Memory Metal. (JCE Classroom Activity) JCE Editorial Staff. October, 1488A–1488B. National Chemistry Week 2005: Cover Feature. Soap

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Films and the Joy of Bubbles. Saecker, M. E. October, 1447. National Chemistry Week 2005: The Joy of Toys. JCE Resources for Chemistry and Toys. Jacobsen, E. K. October, 1443–1446. News from Online: Toying with Chemistry. (ROJOnline) Harris, J.; Kehoe, S. October, 1458– 1460. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. Report: Celebrate Earth Day with ACS. Jacobsen, E. K. March, 354. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) Wright, S. W. April, 542–544. Science Days: An Interdisciplinary Outreach Program. (CFK) Flynn, N. E. October, 1483–1485. Service-Learning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. Esson, J. M.; Stevens-Truss, R.; Thomas, A. August, 1168–1173. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Student Opinions Regarding Inquiry-Based Labs. (VIEW) Deters, K. M. August, 1178–1180. The Student-to-Student Chemistry Initiative: The Impact of Chemistry Demonstration Programs Presented by High School Students at Elementary Schools. Voegel, P. D.; Quashnock, K. A.; Heil, K. M. April, 634–636. Toys in the Classroom. Sarquis, J. L.; Sarquis, A. M. October, 1450–1453. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) Harris, H. H. April, 530–531.

Enantiomers The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051– 1052. Chirality Made Simple: A 1- and 2-Dimensional Introduction to Stereochemistry. Gawley, R. E. July, 1009– 1012. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. Reed, N. A.; Rapp, R. D.; Hamann, C. S.; Artz, P. G. July, 1053–1054. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. Baar, M. R.; Cerrone-Szakal, A. L. July, 1040–1042.

Elementary / Middle School Science


Enrichment / Review Materials A 3D Model of Double-Helical DNA Showing Variable Chemical Details. Cady, S. January, 79–84. 8:31 a.m. Belly Flop: Attitude Adjustment through Weekly Feature Molecules. Franklin, S. J.; Pienta, N. J.; Fry, M. D. June, 847–850. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. June, 901–902. Bond Length Dependence on Quantum States as Shown by Spectroscopy. Lim, K. F. January, 145–149. Community of Effort. (Editorial) Moore, J. W. March, 343. Computer Modeling and Research in the Classroom. Ramos, M. J.; Fernandes, P. A. July, 1021–1025. Correction to “DeLorenzo’s Four Interesting Mysteries Verified” (re J. Chem. Educ. 2002, 79, 1217–1219). (Correction) Ferriols-Pavico, J. M. August, 1151. Correction to “Promoting Graphical Thinking: Using Temperature and a Graphing Calculator To Teach Kinetics Concepts” (re J. Chem. Educ. 2004, 81, 69– 71). (Correction) Cortés-Figueroa, J. E.; MooreRusso, D. A. August, 1151. Demonstrating Energy Migration in Coupled Oscillators: A Central Concept in the Theory of Unimolecular Reactions. (TD) Marcotte, R. E. October, 1530–1531. Doing Science and Asking Questions II: An Exercise That Generates Questions. Middlecamp, C. H.; Nickel, A. L. August, 1181–1186.

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www.JCE.DivChed.org/Journal/Search/ Environmental Chemistry

Education of Teachers for Excellence. (Editorial) Moore, J. W. August, 1111. The Effect of Anharmonicity on Diatomic Vibration: A Spreadsheet Simulation. (JCE WebWare) Lim, K. F.; Coleman, W. F. August, 1263–1264. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) Wally, L. M.; Levinger, N. E.; Grainger, D. W. October, 1489–1495. Finding Chemical Anchors in the Kitchen. (CFK) Haim, L. February, 228–230. Fully Exploiting the Potential of the Periodic Table through Pattern Recognition. Schultz, E. November, 1649–1657. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. “In Yeast” Wordsearch. Helser, T. L. April, 552. An Industrial Chemistry Course That Optimizes the Value of Plant Tours. Hartman, J. S. February, 234– 239. Instant Notes in Inorganic Chemistry, Second Edition (by P. A. Cox). (BMR) Smith, P. M. February, 213. Introducing JCE ChemInfo: Organic. (JCE ChemInfo) Reich, H. March, 495–496. Introducing Safety Topics Using a Student-Centered Approach. (ST) Wright, S. M. October, 1519–1520. JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) Barrie, P. J. June, 958–959. Journal of Chemical Education on CD-ROM, 2004. Abstract of JCE CD 2004. (JCE Software) Holmes, J. L. February, 336. Kilogram and the Mole Redux. (Letter) Karol, P. J. February, 212. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) Rosenstein, I. J. April, 652–654. The Literature of Chemistry: Recommended Titles for Undergraduate Chemistry Library Collections (by Judith A. Douville). (BMR) Kovac, J. D. August, 1153. The Match Game: A Discovery of the Laboratory Equipment Used in General Chemistry. (VIEW) Greengold, S. L. April, 547–548. Molecular Visualization in Science Education: An Evaluation of an NSF-Sponsored Workshop. (CER) José, T.; Williamson, V. M. June, 937–943. More Elementary Riddles. Cunningham, K. D. April, 539–540. Music and Chemistry (re J. Chem. Educ. 2004, 81, 507– 508). (Letter) Behrman, E. J. January, 37. Napoleon’s Buttons: Teaching the Role of Chemistry in History. Samet, C.; Higgins, P. J. October, 1496– 1500. National Chemistry Week 2005: The Joy of Toys. JCE Resources for Chemistry and Toys. Jacobsen, E. K. October, 1443–1446. Organic Chemistry at a Glance (by L. M. Harwood, J. E. McKendrick, and R. C. Whitehead). (BMR) Gooch, E. E. June, 841–842. Positive and Negative Temperatures in a Two-Level System: Thermodynamic and Statistical–Mechanical Perspectives. (ACL) Masthay, M. B.; Fannin, H. B. June, 867–873. Revisiting Millikan’s Oil-Drop Experiment. Pearson, E. F. June, 851–854. Science Days: An Interdisciplinary Outreach Program. (CFK) Flynn, N. E. October, 1483–1485. The Science Teacher: Spring 2005. (ROJSciTea) Long, S. April, 514–515. A Small-Scale Low-Cost Gas Chromatograph. (CET) Gros, N.; Vrtacˇnik, M. February, 291–293. Summer Reading. Pagni, R. M.; Frech, C. B.; Coppola, B. P.; Harris, H. H.; Kovac, J. D. June, 817–824. Teaching Significant Figures Using Age Conversions. (AA) Crute, T. D. October, 1507–1508. Techniques To Enhance Instructors’ Teaching Effectiveness with Chemistry Students Who Are Blind or Visually Impaired. Supalo, C. October, 1513–1518. Telling the Stories of Chemistry. Kitson, T. M. October, 1504. Use Correct Projection. (Letter) Kapoor, V. K. June, 838. Van Nostrand’s Encyclopedia of Chemistry, Fifth Edition (edited by Glenn D. Considine). (BMR) Kovac, J. D. June, 840–841. Water Wordsearch. Helser, T. L. April, 551. What Is a Reaction Rate? Schmitz, G. July, 1091–1093. “You’re Repulsive!”—Teaching VSEPR in a Not-So-Elegant Way. Liu, R. S. April, 558–560.

www.JCE.DivCHED.org


Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. ColladoSánchez, C.; Hernández-Brito, J. J.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. February, 271–273. Analysis of Natural Buffer Systems and the Impact of Acid Rain. An Environmental Project for First-Year Chemistry Students. Powers, D. C.; Higgs, A. T.; Obley, M. L.; Leber, P. A.; Hess, K. R.; Yoder, C. H. February, 274–277. An Approach Towards Teaching Green Chemistry Fundamentals. (GRN) Van Arnum, S. D. November, 1689–1692. Chinese Students’ Opinions about “What is the Biggest Problem in Chemistry?”. (Letter) Mingjie, Z.; Qichao, Y. February, 210. Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. Seney, C. S.; Sinclair, K. V.; Bright, R. M.; Momoh, P. O.; Bozeman, A. D. December, 1826–1829. Education in Environmental Chemistry: Setting the Agenda and Recommending Action. A Workshop Report Summary. Zoller, U. August, 1237–1240. Environmental Laboratory Exercises for Instrumental Analysis and Environmental Chemistry (by Frank M. Dunnivant). (BMR) De Jesús, M. A. March, 382. FTIR Determination of Pollutants in Automobile Exhaust: An Environmental Chemistry Experiment Comparing Cold-Start and Warm-Engine Conditions. Medhurst, L. J. February, 278–281. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave, G. W.; Raston, C. L. March, 468–469. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. February, 257–259. Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. Casey, R. E.; Pittman, F. A. February, 260–264. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. Nature: Environmental Problems and New Hope for the Treatment of Malaria. (ROJNature) Heinhorst, S.; Cannon, G. February, 186–188. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Soltzberg, L. J.; Brown, V. April, 526. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate—Author Reply (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Herrera-Melián, J. A.; Araña Mesa, J. April, 526. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. Romero, A.; Hernández, G.; Suárez, M. F. August, 1234–1236. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E.; Smith, C. J. February, 265–268. Report: Celebrate Earth Day with ACS. Jacobsen, E. K. March, 354. Research Advances: A New Approach to Natural Product Identification; Acrylamide in French Fries; Selectively Sensing Mercury with Oligonucleotide-Based Detectors. (ROJResAdv) King, A. G. January, 10–14. Research Advances: Cars of the Future—Powered by Poison?; Prehistoric Beverage Choices; Health Benefits of Chamomile. (ROJResAdv) King, A. G. April, 506– 510. Research Advances: Children on School Buses May Face Increased Exposure to Diesel Pollution; Where Did All the Nitrogen Go?; Designer Wires. (ROJResAdv) King, A. G. October, 1434–1438. Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle

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Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670. Research Advances: Horseradish, Peroxide Mixture May End War of the Noses; Even Low Levels of Benzene Are Hemotoxic; New “Nuclear Battery” Runs 10 Years, 10 Times More Powerful. (ROJResAdv) King, A. G. November, 1594–1597. Research Advances: Mechanism of Copper Acquisition by Methanotrophs; Honey Bees Use Pheromone To Delay Behavioral Maturation; Liquid Crystal Cylinders. (ROJResAdv) King, A. G. June, 810–814. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612. Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. Todebush, P. M.; Geiger, F. M. October, 1542–1545. A Sensitive Nitrate Ion-Selective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) Bendikov, T. A.; Harmon, T. C. March, 439–441. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. February, 282–285.

Enzymes Brewing Science in the Chemistry Laboratory: A “Mashing” Investigation of Starch and Carbohydrates. Pelter, M. W.; McQuade, J. December, 1811–1812. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. “In Yeast” Wordsearch. Helser, T. L. April, 552. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B. A Collaborative Experiment for Advanced Undergraduates. Rebolledo, F.; Liz, R. June, 930–933. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. Use of Enzymes in Organic Synthesis: Reduction of Ketones by Baker’s Yeast Revisited. Patterson, J.; Sigurdsson, S. T. July, 1049–1050.

Epoxides Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. Getzler, Y. D.; Schmidt, J. A.; Coates, G. W. April, 621–624.

EPR / ESR Spectroscopy Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. Research Advances: Horseradish, Peroxide Mixture May End War of the Noses; Even Low Levels of Benzene Are Hemotoxic; New “Nuclear Battery” Runs 10 Years, 10 Times More Powerful. (ROJResAdv) King, A. G. November, 1594–1597. Research Advances: Nitric Oxide Synthase Reduces Cr(VI); The Chemistry of Popcorn: It’s All About “Pop-Ability”; Nanotubes May Help Heal Broken Bones; New Method Unites Organic Materials and Nanotechnology. (ROJResAdv) King, A. G. December, 1754–1759.

Equilibrium Analysis of Natural Buffer Systems and the Impact of Acid Rain. An Environmental Project for First-Year Chemistry Students. Powers, D. C.; Higgs, A. T.; Obley, M. L.; Leber, P. A.; Hess, K. R.; Yoder, C. H. February, 274–277. Application of ChemDraw NMR Tool: Correlation of Program-Generated 13C Chemical Shifts and pKa Values of para-Substituted Benzoic Acids. Wang, H. September, 1340–1341. Correction to “Henry’s Law: A Retrospective” (re J.


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Subject Index • Volume 82 • 2005 Chem. Educ. 2004, 81, 1647–1652). (Correction) Rosenberg, R. M.; Peticolas, W. January, 38. Dynamic and Equilibrium Adsorption Experiments. Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Da Silva, F. A.; Silva, C. M. June, 919–923. Equilibria That Shift Left upon Addition of More Reactant. Lacy, J. E. August, 1192–1193. Equilibrium Constants and Water Activity. (Letter) Keeports, D. July, 999. JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) Barrie, P. J. June, 958–959. Microscopic Description of Le Châtelier Principle. Novak, I. August, 1190–1191. No Problems with Q. (Letter) Lederer, R. August, 1149. ⁄ Nontypical Brønsted’s Acids and Bases. Micha lowski, T.; Rymanowski, M.; Pietrzyk, A. March, 470–472. Procedure for Decomposing a Redox Reaction into HalfReactions. Fishtik, I.; Berka, L. H. April, 553–557. Putting A Human Face on Equilibrium. (VIEW) Glickstein, N. March, 391–392. The Reaction Quotient (Q) IS Useful After All (re J. Chem. Educ. 2005, 82, 406–407. (Letter) Silverstein, T. P. August, 1149. The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems. (2AP) Matsumoto, P. S. March, 406–407. Reactions to “The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems” —Author Reply (J. Chem. Educ. 2005, 82, 406–407). (Letter) Matsumoto, P. S. August, 1150. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. Johnson, A. R.; McQueen, T. M.; Rodolfa, K. T. March, 408–414. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554.


Ethers Comparative Methylation of 1,8-Dihydroxy-9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. Sereda, G. December, 1839–1840.

Ethics Contemporary Moral Problems in Chemistry: Effect of Peer Presentations on Students’ Awareness of Science and Society Issues. (CER) White, H. B., III.; Brown, S. D.; Johnston, M. V. October, 1570–1576. Summer Reading. Pagni, R. M.; Frech, C. B.; Coppola, B. P.; Harris, H. H.; Kovac, J. D. June, 817–824. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522.

Fatty Acids Colors in Liquid Crystals. (JCE Classroom Activity) Lisensky, G. C.; Boatman, E. M. September, 1360A– 1360B. A Greener Approach for Measuring Colligative Properties. (GRN) McCarthy, S. M.; Gordon-Wylie, S. W. January, 116–119. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. February, 257–259.

First-Year Undergraduate / General

The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. Clennan, M. M.; Clennan, E. L. November, 1676–1678. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537. A Solvent-Free Baeyer–Villiger Lactonization for the Undergraduate Organic Laboratory: Synthesis of γ-t-Butyl- ε -caprolactone. Esteb, J. J.; Hohman, J. N.; Schlamadinger, D. E.; Wilson, A. M. December, 1837–1838. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354.

A 3D Model of Double-Helical DNA Showing Variable Chemical Details. Cady, S. January, 79–84. 3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. November, 1741–1742. 8:31 a.m. Belly Flop: Attitude Adjustment through Weekly Feature Molecules. Franklin, S. J.; Pienta, N. J.; Fry, M. D. June, 847–850. ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363. ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. Addendum to “Laser-Pointer-Based Spectrometer for Endpoint Detection of EDTA Titrations”. (Letter) Dahm, C. E. May, 683. The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051–1052. Amino Acid Complementarity: A Biochemical Exemplar of Stoichiometry for General and Health Sciences Chemistry. Vitz, E. July, 1013–1016. Analysis of Natural Buffer Systems and the Impact of Acid Rain. An Environmental Project for First-Year Chemistry Students. Powers, D. C.; Higgs, A. T.; Obley, M. L.; Leber, P. A.; Hess, K. R.; Yoder, C. H. February, 274–277. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. Bracken, J. D.; Tietz, D. May, 762–764. An Animated Interactive Overview of Molecular Symmetry. (JCE WebWare) Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1742–1743. Applying Chemical Potential and Partial Pressure Concepts To Understand the Spontaneous Mixing of Helium and Air in a Helium-Inflated Balloon. Lee, J.; Yoo, H.; Park, J. S.; Hwang, K.; Kim, J. S. February, 288–290. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. June, 901–902. Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. The Art and Science of Light. An Interdisciplinary Teaching and Learning Experience. (IC) Bopegedera, A. M. January, 55–59. Assessing the Effect of Web-Based Learning Tools on Student Understanding of Stoichiometry Using Knowledge Space Theory. (TECH) Arasasingham, R. D.; Taagepera, M.; Potter, F.; Martorell, I.; Lonjers, S. August, 1251–1262. Attitudinal Effects of a Student-Centered Active Learning Environment. (CER) Oliver-Hoyo, M. T.; Allen, D. June, 944–949. Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Young, J. A. December, 1775.

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Especially for High School Teachers ACS’s Adopt a Teacher Program. (EHST) Mason, D. S. March, 345. Chemistry Teacher Connections. (EHST) Mason, D. S. June, 809. Christmas in October. (EHST) Jacobsen, E. K. October, 1433. Classroom Credit. (EHST) Jacobsen, E. K. February, 185. Gedanken Experiments. (EHST) Mason, D. S. November, 1593. JCE: The Leader of Change. (EHST) Mason, D. S. December, 1753. Learner-Centered Education. (EHST) Mason, D. S. August, 1113. Light Up Your Life. (EHST) Mason, D. S. January, 9. “Only When You Know the Hazards…”. (EHST) Jacobsen, E. K. July, 969. Q & A Session. (EHST) Jacobsen, E. K. September, 1273. The Tried and True with a Cyclic Twist. (EHST) Mason, D. S. April, 505. The World According to Nanotechnology. (EHST) Mason, D. S. May, 665.

Esters


Balloon–Toy of Many Colors. (FPI) Williams, K. R. October, 1448–1449. Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. Bond Length Dependence on Quantum States as Shown by Spectroscopy. Lim, K. F. January, 145–149. Brewing Science in the Chemistry Laboratory: A “Mashing” Investigation of Starch and Carbohydrates. Pelter, M. W.; McQuade, J. December, 1811–1812. Characterization and Classification of Lanthanides by Multivariate-Analysis Methods. Horovitz, O.; Sârbu, C. March, 473–483. Chemical Demonstrations as the Laboratory Component in Nonscience Majors Courses. An Outreach-Targeted Approach. Ophardt, C. E.; Applebee, M. S.; Losey, E. N. August, 1174–1177. Chemiluminescent Oscillating Demonstrations: The Chemical Buoy, the Lighting Wave, and the Ghostly Cylinder. (TD) Prypsztejn, H. E. January, 53–54. Chemistry as General Education (re J. Chem. Educ. 2004, 81, 54–57). (Letter) Silverstein, T. P. June, 838. Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. Chemistry, Creativity, Collaboration, and C60: An Interview with Harold W. Kroto. Cardellini, L. May, 751–755. Chinese Students’ Opinions about “What is the Biggest Problem in Chemistry?”. (Letter) Mingjie, Z.; Qichao, Y. February, 210. Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. A Closer Look at Acid–Base Olfactory Titrations. Neppel, K.; Oliver-Hoyo, M. T.; Queen, C.; Reed, N. April, 607–610. COAChing Women To Succeed in Academic Careers in the Chemical Sciences. Richmond, G. L. March, 351– 353. Colors in Liquid Crystals. (JCE Classroom Activity) Lisensky, G. C.; Boatman, E. M. September, 1360A– 1360B. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Concerning “A Reaction That Takes Place in Beakers but Not in Conical Flasks: A Catalysis-Related Demonstration” (re J. Chem. Educ. 2004, 81, 364). (Letter) Espenson, J. H. April, 527. Connected Chemistry—A Novel Modeling Environment for the Chemistry Classroom. Stieff, M. March, 489– 493. Connected Chemistry. (JCE WebWare) Stieff, M. March, 494. A Demonstration of Sample Segregation. (TD) Fritz, M. D. February, 255–256. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. December, 1815–1819. The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. E = mc 2 for the Chemist: When Is Mass Conserved? Treptow, R. S. November, 1636–1641. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. Encyclopedia of Analytical Science, Second Edition (edited by Paul Worsfold, Alan Townshend, and Colin Poole). (BMR) Thompson, R. Q. September, 1313– 1314. Equilibria That Shift Left upon Addition of More Reactant. Lacy, J. E. August, 1192–1193. Equilibrium Constants and Water Activity. (Letter) Keeports, D. July, 999. Evaluating Students’ Conceptual Understanding of Balanced Equations and Stoichiometric Ratios Using a Particulate Drawing. (CER) Sanger, M. J. January, 131–134. Exploration of the Chemistry of Plants: A General Education Course. (IC) Séquin, M. December, 1787– 1790. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) Oliver-Hoyo, M. T.; Switzer, W. L., III. February, 251–254.


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M&M Orange (re J. Chem. Educ. 2002, 79, 847). (Letter) Elder, J. W. February, 209. M&M Orange—Author Reply (re J. Chem. Educ. 2002, 79, 847). (Letter) Birdwhistell, K. R.; Spence, T. G. February, 209. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. Paddock, J. R.; Maghasi, A. T.; Heineman, W. R.; Seliskar, C. J. September, 1370–1371. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. DeMeo, S. August, 1219– 1222. The Meaning of d-Orbital Labels. Ashkenazi, G. February, 323–324. Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392. Mercury Thermometer Replacements in Chemistry Laboratories. Foster, B. L. February, 269–270. A Methane Balloon Inflation Chamber. (TD) Czerwinski, C. J.; Cordes, T. J. February, 248–250. Microscopic Description of Le Châtelier Principle. Novak, I. August, 1190–1191. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. Misconceptions in Sign Conventions: Flipping the Electric Dipole Moment. Hovick, J. W.; Poler, J. C. June, 889. A Modified Demonstration of the Catalytic Decomposition of Hydrogen Peroxide. (TD) Trujillo, C. A. June, 855. More Elementary Riddles. Cunningham, K. D. April, 539–540. Music and Chemistry (re J. Chem. Educ. 2004, 81, 507– 508). (Letter) Behrman, E. J. January, 37. Napoleon’s Buttons: Teaching the Role of Chemistry in History. Samet, C.; Higgins, P. J. October, 1496– 1500. A Networked NMR Spectrometer: Configuring a Shared Instrument. Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Kosinski, J.; Sinton, M. September, 1342–1344. Nitrogen: It Always Needs a Fix. (FPI) Williams, K. R. February, 194–195. No Problems with Q. (Letter) Lederer, R. August, 1149. ⁄ Nontypical Brønsted’s Acids and Bases. Micha lowski, T.; Rymanowski, M.; Pietrzyk, A. March, 470–472. A Note on Dalton’s Law: Myths, Facts, and Implementation. Missen, R. W.; Smith, W. R. August, 1197– 1201. On the Buoyancy of a Helium-Filled Balloon. Harriman, J. E. February, 246–247. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Peer-Reviewed WebWare: Connected Chemistry. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. March, 494. Predicting the Atomic Weights of the Trans-Lawrencium Elements: A Novel Application of Dobereiner’s Triads. Ibrahim, S. A. November, 1658–1659. Presumptive and Confirmatory Drug Tests. Anderson, C. December, 1809–1810. The Pythagorean Theorem and the Solid State. Kelly, B. S.; Splittgerber, A. G. May, 756–761. The q/T Paradox: Which “Contains More Heat”, a Cup of Coffee at 95 °C or a Liter of Icewater? (TD) Vitz, E.; Schuman, M. J. June, 856–860. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E.; Smith, C. J. February, 265–268. The Reaction Quotient (Q) IS Useful After All (re J. Chem. Educ. 2005, 82, 406–407. (Letter) Silverstein, T. P. August, 1149. The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems. (2AP) Matsumoto, P. S. March, 406–407. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Reactions to “The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems” —Author Reply (J. Chem. Educ. 2005, 82, 406–407). (Letter) Matsumoto, P. S. August, 1150. Regarding Entropy Analysis (re J. Chem. Educ. 2004, 81, 1585–1594). (Letter) Hanson, R. M. June, 839. Regarding Entropy Analysis—Author Reply (re J. Chem.

From Masurium to Trinacrium: The Troubled Story of Element 43. Zingales, R. February, 221–227. Fully Exploiting the Potential of the Periodic Table through Pattern Recognition. Schultz, E. November, 1649–1657. Further Analysis of Boiling Points of Small Molecules, CH wF xCl yBr z. Beauchamp, G. December, 1842– 1845. Gas Permeability of Polymers (re J. Chem. Educ. 2005, 82, 288). (Letter) Lunelli, B. October, 1471–1472. Gas Permeability of Polymers—Author Reply (re J. Chem. Educ. 2005, 82, 288). (Letter) Lee, J. October, 1472. A General Chemistry and Precalculus First-Year Interest Group (FIG): Effect on Retention, Skills, and Attitudes. Pence, L. E.; Workman, H. J.; Haruta, M. E. January, 65–69. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. A Greener Approach for Measuring Colligative Properties. (GRN) McCarthy, S. M.; Gordon-Wylie, S. W. January, 116–119. Greenhouse Gases and Non-gray Behavior. (Letter) Jones, J. C. June, 837. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. February, 257–259. Improving Conceptions in Analytical Chemistry: ciVi = cfVf. Rodríguez-López, M.; Carrasquillo, A., Jr. September, 1327–1328. An Interactive Classroom Activity Demonstrating Reaction Mechanisms and Rate-Determining Steps. (AA) Jennings, L. D.; Keller, S. W. April, 549–550. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) Herman, C.; Casiday, R. E.; Deppe, R. K.; Gilbertson, M.; Spees, W. M.; Holten, D.; Frey, R. F. December, 1871–1879. Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. Casey, R. E.; Pittman, F. A. February, 260–264. Introducing Safety Topics Using a Student-Centered Approach. (ST) Wright, S. M. October, 1519–1520. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. Introductory Chemistry Needs a Revolution. ACS and IUPAC and AAAS and ICUC Should Lead It. (Commentary) Hawkes, S. J. November, 1615–1616. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. Investigating the Photoelectric Effect Using LEDs and a Modular Spectroscope. Diaz, L.; Smith, C. A. June, 906–908. JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) Barrie, P. J. June, 958–959. Kilogram and the Mole Redux. (Letter) Karol, P. J. February, 212. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. A LED Microtiter Plate Reader. Gordon, J. S.; Tye, S. June, 903–905. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. Barreto, M. C. January, 103–104. The Literature of Chemistry: Recommended Titles for Undergraduate Chemistry Library Collections (by Judith A. Douville). (BMR) Kovac, J. D. August, 1153. Low-Cost Thermocouple Signal-Conditioning Module. (CET) Lenzi, M. K.; Silva, F. M.; Lima, E. L.; Pinto, J. C.; Cunningham, M. F. January, 122–123.

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Educ. 2004, 81, 1585–1594). (Letter) Bindel, T. H. June, 839. Revisiting Millikan’s Oil-Drop Experiment. Pearson, E. F. June, 851–854. Revisiting the Electric Pickle Demonstration. (TD) Rizzo, M. M.; Halmi, T. A.; Jircitano, A. J.; Kociolek, M. G.; Magraw, J. A. April, 545–546. Robust Linear Regression Using Theil’s Method. (Letter) Glaister, P. October, 1472–1473. Rotational Mobility in a Crystal Studied by Dielectric Relaxation Spectroscopy. An Experiment for the Physical Chemistry Laboratory. Dionísio, M.; Diogo, H. P.; Farinha, J. P.; Moura-Ramos, J. J. September, 1355–1360. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) Wright, S. W. April, 542–544. The Same or Not the Same: Equivalence as an Issue in Educational Research. (CER) Lewis, S. E.; Lewis, J. E. September, 1408–1412. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612. Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. Todebush, P. M.; Geiger, F. M. October, 1542–1545. Self-Assembled Colloidal Crystals: Visualizing Atomic Crystal Chemistry Using Microscopic Analogues of Inorganic Solids. Abrams, N. M.; Schaak, R. E. March, 450–452. Service-Learning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. Esson, J. M.; Stevens-Truss, R.; Thomas, A. August, 1168–1173. A Set of Hands-On Exercises on Conformational Analysis. Pellegrinet, S. C.; Mata, E. G. January, 73–74. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. Simple and Inexpensive Computer Interface to a Durrum Stopped-Flow Apparatus Tested Using the Iron(III)– Thiocyanate Reaction. (CBB) Hoag, C. M. December, 1823–1825. Simple Dynamic Models for Hydrogen Bonding Using Velcro-Polarized Molecular Models. Schultz, E. March, 401–405. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. February, 282–285. A Six-Year Study of the Effects of a Remedial Course in the Chemistry Curriculum. (CER) Bently, A. B.; Gellene, G. I. January, 125–130. A Small-Scale Low-Cost Gas Chromatograph. (CET) Gros, N.; Vrtacˇnik, M. February, 291–293. Some Footnotes on the History of Masurium. (Letter) Wagner, H. J. September, 1309. Some Insights Regarding a Popular Introductory Gas Law Experiment. DePierro, E.; Garafalo, F. August, 1194–1196. Steel Wool and Oxygen: A Look at Kinetics. Gordon, J. S.; Chancey, K. July, 1065–1067. Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Student Opinions Regarding Inquiry-Based Labs. (VIEW) Deters, K. M. August, 1178–1180. Sublimation of Iodine at Various Pressures. Mutlipurpose Experiments in Inorganic and Physical Chemistry. Leenson, I. A. February, 241–245. A Substitute for “Bromine in Carbon Tetrachloride". Daley, J. M.; Landolt, R. G. January, 120–121. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400. Synthesis and Analysis of Copper Hydroxy Double Salts. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. November, 1662. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Teaching Significant Figures Using Age Conversions. (AA) Crute, T. D. October, 1507–1508. Techniques To Enhance Instructors’ Teaching Effectiveness with Chemistry Students Who Are Blind or Visually Impaired. Supalo, C. October, 1513–1518. Telling the Stories of Chemistry. Kitson, T. M. October, 1504.


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Subject Index • Volume 82 • 2005 Template Synthesis and Magnetic Manipulation of Nickel Nanowires. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. May, 765–768. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379. Thermal Expansion: Using Calculator-Based Laboratory Technology To Observe the Anomalous Behavior of Water. Branca, M.; Soletta, I. April, 613–615. Toys in the Classroom. Sarquis, J. L.; Sarquis, A. M. October, 1450–1453. Undergraduate Transitions: Enhancing Student Success. (ACS) Wesemann, J. February, 196–198. Underground Existence of Research in Chemistry in Two-Year College Programs. (2YC3) Gaglione, O. G. November, 1613–1614. Understanding Attrition in an Introductory Chemistry Sequence Following Successful Completion of a Remedial Course. (CER) Jones, K. B.; Gellene, G. I. August, 1241–1245. The Use of the Free, Open-Source Program Jmol To Generate an Interactive Web Site To Teach Molecular Symmetry. Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1736–1740. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554. Valence, Covalence, Hypervalence, Oxidation State, and Coordination Number. Smith, D. W. August, 1202– 1204. Van Nostrand’s Encyclopedia of Chemistry, Fifth Edition (edited by Glenn D. Considine). (BMR) Kovac, J. D. June, 840–841. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735. Water Wordsearch. Helser, T. L. April, 551. Weighing Paper Substitute. (CET) Ruekberg, B. April, 620. Where Should the Nuclei Be Located? Liu, Y.; Liu, Y.; Drew, M. February, 320–322. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522. “You’re Repulsive!”—Teaching VSEPR in a Not-So-Elegant Way. Liu, R. S. April, 558–560.

Fluorescence Spectroscopy Chemistry and Luminescence (re J. Chem. Educ. 2005, 82, 49). (Letter) Cintas, P. June, 837. Chemistry and Luminescence—Author Reply (re J. Chem. Educ. 2005, 82, 49). (Letter) O’Hara, P. B. June, 837. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. Quantum Dots: An Experiment for Physical or Materials Chemistry. Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. November, 1700–1702. Research Advances: A New Approach to Natural Product Identification; Acrylamide in French Fries; Selectively Sensing Mercury with Oligonucleotide-Based Detectors. (ROJResAdv) King, A. G. January, 10–14. Research Advances: Nanoshells vs Cancer Cells; Sex Pheromone of Cockroach Identified; New Fluorophores Unmasked by Chemical Reaction. (ROJResAdv) King, A. G. September, 1274–1278. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. November, 1697–1699. Turning on the Light: Lessons from Luminescence. O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 49–52. Turning on the Light. (JCE Classroom Activity) O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 48A–48B. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment.

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www.JCE.DivChed.org/Journal/Search/ toluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. A Substitute for “Bromine in Carbon Tetrachloride". Daley, J. M.; Landolt, R. G. January, 120–121.

Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918.

Food Science Amino Acid Complementarity: A Biochemical Exemplar of Stoichiometry for General and Health Sciences Chemistry. Vitz, E. July, 1013–1016. Brewing Science in the Chemistry Laboratory: A “Mashing” Investigation of Starch and Carbohydrates. Pelter, M. W.; McQuade, J. December, 1811–1812. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. June, 924–925. The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. I Screen, You Screen, We All Screen for Phenolics. (JCE Classroom Activity) Sady, M. B. December, 1808A– 1808B. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E.; Smith, C. J. February, 265–268. Research Advances: A New Approach to Natural Product Identification; Acrylamide in French Fries; Selectively Sensing Mercury with Oligonucleotide-Based Detectors. (ROJResAdv) King, A. G. January, 10–14. Research Advances: Cars of the Future—Powered by Poison?; Prehistoric Beverage Choices; Health Benefits of Chamomile. (ROJResAdv) King, A. G. April, 506– 510. Research Advances: Onions Battle Osteoporosis; New Weapon in War on TB; Smokers Beware: Study Shows Increased Cadmium Levels in the Brain May Cause Severe Neurological Disorders. (ROJResAdv) King, A. G. August, 1114–1116. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973.

From Past Issues The ACS Prize Essay Contest. (FPI) Rice, R. E. December, 1765–1767. Balloon–Toy of Many Colors. (FPI) Williams, K. R. October, 1448–1449. Nitrogen: It Always Needs a Fix. (FPI) Williams, K. R. February, 194–195. Posters–Old Tool, New Tech. (FPI) Raines, B. J.; Gomez, C. G.; Williams, K. R. August, 1118–1119.

Gas Chromatography Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. Heinson, C. D.; Williams, J. M.; Tinnerman, W. N.; Malloy, T. B. May, 787–789. Enthalpy of Vaporization by Gas Chromatography: A Physical Chemistry Experiment. Ellison, H. R. July, 1086–1088. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. Presumptive and Confirmatory Drug Tests. Anderson, C. December, 1809–1810. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. Research Advances: A New Approach to Natural Product Identification; Acrylamide in French Fries; Selectively Sensing Mercury with Oligonucleotide-Based Detectors. (ROJResAdv) King, A. G. January, 10–14. Research Advances: Cars of the Future—Powered by Poison?; Prehistoric Beverage Choices; Health Benefits of Chamomile. (ROJResAdv) King, A. G. April, 506–510. Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090. Use of Enzymes in Organic Synthesis: Reduction of Ketones by Baker’s Yeast Revisited. Patterson, J.; Sigurdsson, S. T. July, 1049–1050.

Gases Applying Chemical Potential and Partial Pressure Concepts To Understand the Spontaneous Mixing of Helium and Air in a Helium-Inflated Balloon. Lee, J.; Yoo, H.; Park, J. S.; Hwang, K.; Kim, J. S. February, 288–290. Balloon–Toy of Many Colors. (FPI) Williams, K. R. October, 1448–1449. Bond Length Dependence on Quantum States as Shown by Spectroscopy. Lim, K. F. January, 145–149. Correction to “Henry’s Law: A Retrospective” (re J. Chem. Educ. 2004, 81, 1647–1652). (Correction) Rosenberg, R. M.; Peticolas, W. January, 38. The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) Wally, L. M.; Levinger, N. E.; Grainger, D. W. October, 1489–1495. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) Oliver-Hoyo, M. T.; Switzer, W. L., III. February, 251–254. FTIR Determination of Pollutants in Automobile Exhaust: An Environmental Chemistry Experiment Comparing Cold-Start and Warm-Engine Conditions. Medhurst, L. J. February, 278–281. Gas Permeability of Polymers (re J. Chem. Educ. 2005, 82, 288). (Letter) Lunelli, B. October, 1471–1472. Gas Permeability of Polymers—Author Reply (re J. Chem. Educ. 2005, 82, 288). (Letter) Lee, J. October, 1472. Global Least-Squares Analysis of the IR Rotation–Vibration Spectrum of HCl. Tellinghuisen, J. January, 150– 156. Greenhouse Gases and Non-gray Behavior. (Letter) Jones, J. C. June, 837. A Methane Balloon Inflation Chamber. (TD) Czerwinski, C. J.; Cordes, T. J. February, 248–250.

Forensic Chemistry Chemiluminescent Oscillating Demonstrations: The Chemical Buoy, the Lighting Wave, and the Ghostly Cylinder. (TD) Prypsztejn, H. E. January, 53–54. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. Warnke, M. M.; Erickson, A. E.; Smith, E. T. July, 1082–1085. Turning on the Light: Lessons from Luminescence. O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 49–52.

Fourier Transform Techniques Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. Antler, M.; Salin, E.; Wilczek-Vera, G. March, 425–427.

Free Radicals Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. The Quantitative Determination of Butylated Hydroxy-

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Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Summer Reading. Pagni, R. M.; Frech, C. B.; Coppola, B. P.; Harris, H. H.; Kovac, J. D. June, 817–824. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400. Toys in the Classroom. Sarquis, J. L.; Sarquis, A. M. October, 1450–1453. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583.

A Note on Dalton’s Law: Myths, Facts, and Implementation. Missen, R. W.; Smith, W. R. August, 1197– 1201. On the Buoyancy of a Helium-Filled Balloon. Harriman, J. E. February, 246–247. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Safe Preparation of HCl and DCl for IR Spectroscopy. (ST) Furlong, W. R.; Grubbs, W. T. January, 124. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. February, 282–285. Some Insights Regarding a Popular Introductory Gas Law Experiment. DePierro, E.; Garafalo, F. August, 1194–1196. Steel Wool and Oxygen: A Look at Kinetics. Gordon, J. S.; Chancey, K. July, 1065–1067. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Sublimation of Iodine at Various Pressures. Mutlipurpose Experiments in Inorganic and Physical Chemistry. Leenson, I. A. February, 241–245. Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090. Thermodynamic Calculation of Work for Some Irreversible Processes. Bertrand, G. L. June, 874–877. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583.

Geochemistry Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. Casey, R. E.; Pittman, F. A. February, 260–264. The Relationship between Balancing Reactions and Reaction Lifetimes: A Consideration of the Potassium– Argon Radiometric Method for Dating Minerals. Howard, W. A. July, 1094–1098. Research Advances: Children on School Buses May Face Increased Exposure to Diesel Pollution; Where Did All the Nitrogen Go?; Designer Wires. (ROJResAdv) King, A. G. October, 1434–1438. Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. Todebush, P. M.; Geiger, F. M. October, 1542–1545. Synthesis and Analysis of Copper Hydroxy Double Salts. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. November, 1662.

General Public ACS National Meeting. CHED Events: San Diego. Sarquis, J. L.; Greer, S. March, 365. ACS National Meeting. CHED Events: Washington, DC. Greer, S. August, 1136–1137. The ACS Prize Essay Contest. (FPI) Rice, R. E. December, 1765–1767. Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Chemistry as General Education (re J. Chem. Educ. 2004, 81, 54–57). (Letter) Silverstein, T. P. June, 838. Chemistry of Durable and Regenerable Biocidal Textiles. (POC) Sun, G.; Worley, S. D. January, 60–64. Chemistry, The Central Science? The History of the High School Science Sequence. (SSC) Sheppard, K.; Robbins, D. M. April, 561–566. Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. Christmas in October. (EHST) Jacobsen, E. K. October, 1433. Classroom Credit. (EHST) Jacobsen, E. K. February, 185. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. Global Leadership in Science and Technology. (Editorial) Moore, J. W. June, 807. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. JCE Online Store Grand Opening. (JCE Online) Holmes, J. L. January, 176. More Elementary Riddles. Cunningham, K. D. April, 539–540. Nitrogen: It Always Needs a Fix. (FPI) Williams, K. R. February, 194–195. The Origin of the Bunsen Burner. (ASK) Jensen, W. B. April, 518. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. Pharmaceutical Applications of Ion-Exchange Resins. (POC) Elder, D. P. April, 575–587. Posters–Old Tool, New Tech. (FPI) Raines, B. J.; Gomez, C. G.; Williams, K. R. August, 1118–1119. Reaction to “Something Might Be Gaining on Us” (re J. Chem. Educ. 2004, 81, 1079). (Letter) Dybowski, C. R. February, 210–211. Report: Einstein Revisited. Fine, L. W. November, 1601– 1608. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) Wright, S. W. April, 542–544. Scientists and Public Policy. (Editorial) Moore, J. W. February, 183. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612.

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Gold Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. Cerrada, E.; Laguna, M. April, 630–633. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670.

Graduate Education / Research Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. ColladoSánchez, C.; Hernández-Brito, J. J.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. February, 271–273. Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) Ship, N. J.; Zamble, D. B. December, 1805–1808. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. June, 901–902. Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Young, J. A. December, 1775. Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. Displacements of Brownian Particles in Terms of Marian von Smoluchowski’s Heuristic Model. Klein, H.; Woermann, D. November, 1642–1644. Electrochemical Fabrication of Metallic Quantum Wires. Tao, N. May, 720–726. Electrochemistry at Nanometer-Scaled Electrodes. Watkins, J. J.; Zhang, B.; White, H. S. May, 712– 719. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. Encyclopedia of Analytical Science, Second Edition (edited by Paul Worsfold, Alan Townshend, and Colin Poole). (BMR) Thompson, R. Q. September, 1313– 1314.

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FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. Fifty Ways To Make Boric Acid (with Apologies to Paul Simon). Davis, C. M. April, 541. First-Order or Second-Order Kinetics? A Monte Carlo Answer. Tellinghuisen, J. November, 1709–1714. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. Heinz, W. F.; Hoh, J. H. May, 695–703. Implementing the Professional Development Standards: A Research Department’s Innovative Masters Degree Program for High School Chemistry Teachers. Blasie, C. W.; Palladino, G. F. April, 567–570. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Introduction to Quantum Mechanics: in Chemistry, Material Science, and Biology (by S. M. Blinder). (BMR) Dunn, K. M. March, 383–386. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? de Levie, R. June, 885–888. “It Gets Me to the Product”: How Students Propose Organic Mechanisms. (CER) Bhattacharyya, G.; Bodner, G. M. September, 1402–1407. Learning To Search in Ten Easy Steps: A Review of a Chemical Information Course. (CII) Currano, J. N. March, 484–488. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. The Moment. Di Raddo, P. July, 984. Nantribology: Rubbing on a Small Scale. Dickinson, J. T. May, 734–742. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. Galembeck, S. E.; Caramori, G. F.; Romero, J. R. December, 1800–1804. Organic Chemistry: An Intermediate Text, Second Edition (by Robert V. Hoffman). (BMR) Waddell, T. G. February, 215–216. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Plastic Antibodies: Molecular Recognition with Imprinted Polymers. An Introductory Polymer Chemistry Laboratory Investigation. Rushton, G. T.; Furmanski, B. D.; Shimizu, K. D. September, 1374– 1377. Polypyrazolylborates: Scorpionates. (POC) Trofimenko, S. November, 1715–1720. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) Celej, M. S.; Fidelio, G. D.; Dassie, S. A. January, 85–92. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. The Same or Not the Same: Equivalence as an Issue in Educational Research. (CER) Lewis, S. E.; Lewis, J. E. September, 1408–1412. A Simple Reduction Process for the Normal Vibrational Modes Occurring in Linear Molecules. McInerny, W. J. January, 140–144. Single-Molecule Electronic Measurements with Metal Electrodes. Lindsay, S. May, 727–733. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209. STEMming the Tide: Using Career Week Activities To Recruit Future Chemists. Bopegedera, A. M. October, 1505–1506. Stereogenic Centers and Axes: A Comparison of the Chiral Topologies Available to Cabcd and abC=C=Ccd. Lloyd-Williams, P.; Giralt, E. July, 1031–1033. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675.


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Subject Index • Volume 82 • 2005 Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical– Computational Project. Baudry, J.; Hergenrother, P. J. June, 890–894. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. Antler, M.; Salin, E.; Wilczek-Vera, G. March, 425–427. Understanding Least Squares through Monte Carlo Calculations. Tellinghuisen, J. January, 157–166.

Gravimetric Analysis Exploring Chemical Analysis, 3rd Edition (by Daniel C. Harris). (BMR) Steehler, J. K. May, 685. Synthesis and Analysis of Copper Hydroxy Double Salts. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. November, 1662.

Green Chemistry An Approach Towards Teaching Green Chemistry Fundamentals. (GRN) Van Arnum, S. D. November, 1689–1692. Comparative Methylation of 1,8-Dihydroxy-9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. Sereda, G. December, 1839–1840. The Evolution of a Green Chemistry Laboratory Experiment: Greener Brominations of Stilbene. (GRN) McKenzie, L. C.; Huffman, L. M.; Hutchison, J. E. February, 306–310. Going Green: Lecture Assignments and Lab Experiences for the College Curriculum. (ACS) Haack, J. A.; Hutchison, J. E.; Kirchhoff, M. M.; Levy, I. J. July, 974–976. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave, G. W.; Raston, C. L. March, 468–469. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. A Greener Approach for Measuring Colligative Properties. (GRN) McCarthy, S. M.; Gordon-Wylie, S. W. January, 116–119. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) White, L. L.; Kittredge, K. W. July, 1055–1056. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Soltzberg, L. J.; Brown, V. April, 526. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate—Author Reply (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Herrera-Melián, J. A.; Araña Mesa, J. April, 526. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. Romero, A.; Hernández, G.; Suárez, M. F. August, 1234–1236. A Solvent-Free Baeyer–Villiger Lactonization for the Undergraduate Organic Laboratory: Synthesis of γ-t-Butyl- ε -caprolactone. Esteb, J. J.; Hohman, J. N.; Schlamadinger, D. E.; Wilson, A. M. December, 1837–1838. A Substitute for “Bromine in Carbon Tetrachloride". Daley, J. M.; Landolt, R. G. January, 120–121. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681.


A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. A Greener Approach for Measuring Colligative Properties. (GRN) McCarthy, S. M.; Gordon-Wylie, S. W. January, 116–119. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) White, L. L.; Kittredge, K. W. July, 1055– 1056.

Grignard Reagents Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. Mills, N. S.; Spence, J. D.; Bushey, M. M. August, 1226–1228. The Ethylene Ketal Protecting Group Revisited: The Synthesis of 4-Hydroxy-4,4-diphenyl-2-butanone. Baar, M. R.; Russell, C. E.; Wustholz, K. L. July, 1057–1058.

Group Theory / Symmetry 3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. November, 1741–1742. An Animated Interactive Overview of Molecular Symmetry. (JCE WebWare) Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1742–1743. Chirality Made Simple: A 1- and 2-Dimensional Introduction to Stereochemistry. Gawley, R. E. July, 1009– 1012. Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) Whisnant, D. M.; Lever, L. S.; Howe, J. J. February, 334. A Simple Reduction Process for the Normal Vibrational Modes Occurring in Linear Molecules. McInerny, W. J. January, 140–144. Teaching Molecular Symmetry with JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. November, 1741. The Use of the Free, Open-Source Program Jmol To Generate an Interactive Web Site To Teach Molecular Symmetry. Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1736–1740.

Hands-On Learning / Manipulatives

An Approach Towards Teaching Green Chemistry Fundamentals. (GRN) Van Arnum, S. D. November, 1689–1692. The Evolution of a Green Chemistry Laboratory Experiment: Greener Brominations of Stilbene. (GRN) McKenzie, L. C.; Huffman, L. M.; Hutchison, J. E. February, 306–310. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave, G. W.; Raston, C. L. March, 468–469. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381.

A 3D Model of Double-Helical DNA Showing Variable Chemical Details. Cady, S. January, 79–84. Acid-Catalyzed Isomerization of Carvone to Carvacrol. Kjonaas, R. A.; Mattingly, S. P. December, 1813– 1814. The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051– 1052. Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. ColladoSánchez, C.; Hernández-Brito, J. J.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. February, 271–273. Analysis of Natural Buffer Systems and the Impact of Acid Rain. An Environmental Project for First-Year Chemistry Students. Powers, D. C.; Higgs, A. T.; Obley, M. L.; Leber, P. A.; Hess, K. R.; Yoder, C. H. February, 274–277. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. Bracken, J. D.; Tietz, D. May, 762–764. An Azulene-Based Discovery Experiment: Challenging Students To Watch for the “False Assumption”. Garner, C. M. November, 1686–1688. Brewing Science in the Chemistry Laboratory: A “Mashing” Investigation of Starch and Carbohydrates. Pelter, M. W.; McQuade, J. December, 1811–1812. Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. Mills, N. S.; Spence, J. D.; Bushey, M. M. August, 1226–1228. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Chemistry, Creativity, Collaboration, and C60: An Interview with Harold W. Kroto. Cardellini, L. May, 751–755.

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Chiral Crystallization of Ethylenediamine Sulfate. Koby, L.; Ningappa, J. B.; Dakessian, M.; Cuccia, L. A. July, 1043–1045. Christmas in October. (EHST) Jacobsen, E. K. October, 1433. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. Reed, N. A.; Rapp, R. D.; Hamann, C. S.; Artz, P. G. July, 1053–1054. Classroom Credit. (EHST) Jacobsen, E. K. February, 185. Colors in Liquid Crystals. (JCE Classroom Activity) Lisensky, G. C.; Boatman, E. M. September, 1360A– 1360B. Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. Cerrada, E.; Laguna, M. April, 630–633. Comparative Methylation of 1,8-Dihydroxy-9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. Sereda, G. December, 1839–1840. A Convenient Method for Dispensing Organometallic Reagents. (CET) Newton, T. A. June, 936. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230. A Cool Drink! An Introduction to Concentrations. (JCE Classroom Activity) Bedrossian, M. February, 240A– 240B. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Crystallographic Study of Manganese(III) Acetylacetonate: An Advanced Undergraduate Project with Unexpected Challenges. Geremia, S.; Demitri, N. March, 460–465. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. June, 924–925. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. December, 1815–1819. The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. Heinson, C. D.; Williams, J. M.; Tinnerman, W. N.; Malloy, T. B. May, 787–789. Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. Seney, C. S.; Sinclair, K. V.; Bright, R. M.; Momoh, P. O.; Bozeman, A. D. December, 1826–1829. Diels–Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. April, 625–629. Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. Baar, M. R.; Wustholz, K. L. September, 1393–1394. The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. Dynamic and Equilibrium Adsorption Experiments. Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Da Silva, F. A.; Silva, C. M. June, 919–923. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) Wally, L. M.; Levinger, N. E.; Grainger, D. W. October, 1489–1495. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. Baar, M. R.; Cerrone-Szakal, A. L. July, 1040–1042. An Engaging Illustration of the Physical Differences among Menthol Stereoisomers. Treadwell, E. M.; Black, T. H. July, 1046–1048. Enthalpy of Vaporization by Gas Chromatography: A Physical Chemistry Experiment. Ellison, H. R. July, 1086–1088. The Entrance and Exit Effects in Small Electrochemical


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April, 560A–560B. Investigating the Photoelectric Effect Using LEDs and a Modular Spectroscope. Diaz, L.; Smith, C. A. June, 906–908. Isolation of Shikimic Acid from Star Aniseed. Payne, R.; Edmonds, M. K. April, 599–600. The Joy of Chemistry: The Amazing Science of Familiar Things (by Cathy Cobb and Monty L. Fetterolf ). (BMR) Matthews, M. S. October, 1475. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. A LED Microtiter Plate Reader. Gordon, J. S.; Tye, S. June, 903–905. A Low-Cost Experiment on Newtonian and NonNewtonian Fluids. Dolz, M.; Delegido, J.; Casanovas, A.; Hernández, M. March, 445–447. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. Paddock, J. R.; Maghasi, A. T.; Heineman, W. R.; Seliskar, C. J. September, 1370–1371. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. DeMeo, S. August, 1219– 1222. The Match Game: A Discovery of the Laboratory Equipment Used in General Chemistry. (VIEW) Greengold, S. L. April, 547–548. Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392. Measuring Gas-Phase Basicities of Amino Acids Using an Ion Trap Mass Spectrometer. A Physical Chemistry Laboratory Experiment. Sunderlin, L. S.; Ryzhov, V.; Keller, L. M.; Gaillard, E. R. July, 1071–1073. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) White, L. L.; Kittredge, K. W. July, 1055– 1056. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. Ahn, H.; Whitten, J. E. June, 909–911. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B. A Collaborative Experiment for Advanced Undergraduates. Rebolledo, F.; Liz, R. June, 930–933. National Chemistry Week 2005: The Joy of Toys. JCE Resources for Chemistry and Toys. Jacobsen, E. K. October, 1443–1446. The Nature of Hydrogen Bonding. (JCE Classroom Activity) Schultz, E. March, 400A–400B. News from Online: Toying with Chemistry. (ROJOnline) Harris, J.; Kehoe, S. October, 1458– 1460. NMR Analysis of Unknowns: An Introduction to 2D NMR Spectroscopy. Alonso, D. E.; Warren, S. E. September, 1385–1386. Organic Spectroscopy Laboratory: Utilizing IR and NMR in the Identification of an Unknown Substance. Glagovich, N. M.; Shine, T. D. September, 1382– 1384.

Filter-Press Reactors Used in the Laboratory. FríasFerrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. September, 1395–1398. The Ethylene Ketal Protecting Group Revisited: The Synthesis of 4-Hydroxy-4,4-diphenyl-2-butanone. Baar, M. R.; Russell, C. E.; Wustholz, K. L. July, 1057–1058. An Experimental Introduction to Interlaboratory Exercises in Analytical Chemistry. Puignou, L.; Llauradó, M. July, 1079–1081. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. Finding Chemical Anchors in the Kitchen. (CFK) Haim, L. February, 228–230. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. Formation of α-Tetralone by Intramolecular Friedel– Crafts Acylation. (ML) Holden, M. S.; Crouch, R. D.; Barker, K. H. June, 934–935. FTIR Determination of Pollutants in Automobile Exhaust: An Environmental Chemistry Experiment Comparing Cold-Start and Warm-Engine Conditions. Medhurst, L. J. February, 278–281. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. Clennan, M. M.; Clennan, E. L. November, 1676–1678. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave, G. W.; Raston, C. L. March, 468–469. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. A Greener Approach for Measuring Colligative Properties. (GRN) McCarthy, S. M.; Gordon-Wylie, S. W. January, 116–119. Growth Kinetics and Modeling of ZnO Nanoparticles. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. May, 775–778. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. Hydrolysis of Pentaamminechlorocobalt(III): A Unified Mechanistic View. González-Ferrer, G.; Martínez López, M. November, 1671–1673. I Screen, You Screen, We All Screen for Phenolics. (JCE Classroom Activity) Sady, M. B. December, 1808A– 1808B. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 453–455. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A.

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The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. Romero, A.; Hernández, G.; Suárez, M. F. August, 1234–1236. Plastic Antibodies: Molecular Recognition with Imprinted Polymers. An Introductory Polymer Chemistry Laboratory Investigation. Rushton, G. T.; Furmanski, B. D.; Shimizu, K. D. September, 1374– 1377. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667– 1670. Presumptive and Confirmatory Drug Tests. Anderson, C. December, 1809–1810. Q & A Session. (EHST) Jacobsen, E. K. September, 1273. Qualitative Organic Analysis—In the Classroom and Laboratory. Finley, K. T. February, 240. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. June, 912–915. A Quantitative Examination of Multiple Methods for Standardizing a Dilute Hydrochloric Acid Solution in an Undergraduate Chemistry Laboratory. Meagher, N. E.; Bowens, D. B.; Clark, B. S. March, 428–434. Quantum Dots: An Experiment for Physical or Materials Chemistry. Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. November, 1700–1702. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E.; Smith, C. J. February, 265–268. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. March, 466–467. Reduction of Ilmenite with Charcoal. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 456–459. Rotor-shaped Cyclopentadienyltetraphenylcyclobutadienecobalt. An Advanced Inorganic Experiment. MacFarland, D. K.; Gorodetzer, R. January, 109–110. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. November, 1697–1699. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. January, 93–95. Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. Todebush, P. M.; Geiger, F. M. October, 1542–1545. Self-Assembled Colloidal Crystals: Visualizing Atomic Crystal Chemistry Using Microscopic Analogues of Inorganic Solids. Abrams, N. M.; Schaak, R. E. March, 450–452. A Sensitive Nitrate Ion-Selective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) Bendikov, T. A.; Harmon, T. C. March, 439–441. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. Bazzi, A.; Kreuz, B.; Wuokila, J.; Maqboul, A. March, 435–438. Sequential-Injection Analysis: Principles, Instrument Construction, and Demonstration by a Simple Experi-


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Subject Index • Volume 82 • 2005 ment. (TICI) Economou, A.; Tzanavaras, P. D.; Themelis, D. G. December, 1820–1822. A Set of Hands-On Exercises on Conformational Analysis. Pellegrinet, S. C.; Mata, E. G. January, 73–74. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. Simple Dynamic Models for Hydrogen Bonding Using Velcro-Polarized Molecular Models. Schultz, E. March, 401–405. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. February, 282–285. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. Warnke, M. M.; Erickson, A. E.; Smith, E. T. July, 1082–1085. A Small-Scale Low-Cost Gas Chromatograph. (CET) Gros, N.; Vrtacˇnik, M. February, 291–293. A Solvent-Free Baeyer–Villiger Lactonization for the Undergraduate Organic Laboratory: Synthesis of γ-t-Butyl- ε -caprolactone. Esteb, J. J.; Hohman, J. N.; Schlamadinger, D. E.; Wilson, A. M. December, 1837–1838. Spectacular Breeding of Crystals on Silica Gel. Piekos, R.; Teodorczyk, J. March, 448–449. Spectrophotometric Determination of the Dissociation Constant of an Acid–Base Indicator Using a Mathematical Deconvolution Technique. Alter, K. P.; Molloy, J. L.; Niemeyer, E. D. November, 1682–1685. Spectrophotometric Determination of the Hole Concentration in the Superconductor YBa2Cu3O7᎑x: An Undergraduate Experiment. Hoppé, J. I.; Malati, M. A. February, 299–301. Steel Wool and Oxygen: A Look at Kinetics. Gordon, J. S.; Chancey, K. July, 1065–1067. A Substitute for “Bromine in Carbon Tetrachloride". Daley, J. M.; Landolt, R. G. January, 120–121. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. Williams, G. L.; Vohs, J. K.; Brege, J. J.; Fahlman, B. D. May, 771– 774. Surface pKa of Self-Assembled Monolayers. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. May, 779– 781. Synthesis and Analysis of Copper Hydroxy Double Salts. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. November, 1662. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. Getzler, Y. D.; Schmidt, J. A.; Coates, G. W. April, 621–624. Synthesis of Meso-Octamethylporphyrinogen: An Undergraduate Laboratory Mini-Scale Experiment in Organic Heterocyclic Chemistry. (ML) Sobral, A. J. April, 618–620. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. Antler, M.; Salin, E.; Wilczek-Vera, G. March, 425–427. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. May, 782–786. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. May, 765–768. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598. Testing for Ultraviolet Toxicity Using Fungi. Vital, M.; Esperón, P. June, 926–929. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379. Thermal Expansion: Using Calculator-Based Laboratory Technology To Observe the Anomalous Behavior of Water. Branca, M.; Soletta, I. April, 613–615. Toys in the Classroom. Sarquis, J. L.; Sarquis, A. M. October, 1450–1453. The Tried and True with a Cyclic Twist. (EHST) Ma-

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son, D. S. April, 505. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B. Turning on the Light: Lessons from Luminescence. O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 49– 52. Turning on the Light. (JCE Classroom Activity) O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 48A–48B. Use of Enzymes in Organic Synthesis: Reduction of Ketones by Baker’s Yeast Revisited. Patterson, J.; Sigurdsson, S. T. July, 1049–1050. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554. Variable Effects during Polymerization. Lunsford, S. K. December, 1830–1832. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. Salter, G.; Range, K.; Salter, C. February, 297–298. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) Harris, H. H. April, 530–531.

of Stoichiometry for General and Health Sciences Chemistry. Vitz, E. July, 1013–1016. Ammonium Chloride. (CLIP) Young, J. A. November, 1618. Ammonium Dichromate. (CLIP) Young, J. A. November, 1617. Ammonium Thiocyanate. (CLIP) Young, J. A. November, 1619. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. Bracken, J. D.; Tietz, D. May, 762–764. Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. The Art and Science of Light. An Interdisciplinary Teaching and Learning Experience. (IC) Bopegedera, A. M. January, 55–59. Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Young, J. A. December, 1775. Balloon–Toy of Many Colors. (FPI) Williams, K. R. October, 1448–1449. Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. Brewing Science in the Chemistry Laboratory: A “Mashing” Investigation of Starch and Carbohydrates. Pelter, M. W.; McQuade, J. December, 1811–1812. Cadmium. (CLIP) Young, J. A. April, 521. The Cartoon Guide to Chemistry (by Larry Gonick and Craig Criddle). (BMR) Harris, H. H. December, 1777–1778. Catechol. (CLIP) Young, J. A. January, 31. Chemiluminescent Oscillating Demonstrations: The Chemical Buoy, the Lighting Wave, and the Ghostly Cylinder. (TD) Prypsztejn, H. E. January, 53–54. Chemistry as General Education (re J. Chem. Educ. 2004, 81, 54–57). (Letter) Silverstein, T. P. June, 838. Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. Chemistry Teacher Connections. (EHST) Mason, D. S. June, 809. Chemistry Teachers’ Estimations of Their Students’ Learning Achievement. (CER) Lin, H.; Lee, S. T.; Treagust, D. F. October, 1565–1569. Chemistry, The Central Science? The History of the High School Science Sequence. (SSC) Sheppard, K.; Robbins, D. M. April, 561–566. Chirality Made Simple: A 1- and 2-Dimensional Introduction to Stereochemistry. Gawley, R. E. July, 1009– 1012. Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. Christmas in October. (EHST) Jacobsen, E. K. October, 1433. Classroom Credit. (EHST) Jacobsen, E. K. February, 185. A Closer Look at Acid–Base Olfactory Titrations. Neppel, K.; Oliver-Hoyo, M. T.; Queen, C.; Reed, N. April, 607–610. Colors in Liquid Crystals. (JCE Classroom Activity) Lisensky, G. C.; Boatman, E. M. September, 1360A– 1360B. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) Kruse, R. A.; Roehrig, G. H. August, 1246–1250. Conant Award Interview: An Interview with Annis Hapkiewicz, 2005 Award Winner. (Award Address) JCE Editorial Staff. September, 1287–1291. Concerning “A Reaction That Takes Place in Beakers but Not in Conical Flasks: A Catalysis-Related Demonstration” (re J. Chem. Educ. 2004, 81, 364). (Letter) Espenson, J. H. April, 527. Connected Chemistry—A Novel Modeling Environment for the Chemistry Classroom. Stieff, M. March, 489– 493. Connected Chemistry. (JCE WebWare) Stieff, M. March, 494. A Cool Drink! An Introduction to Concentrations. (JCE Classroom Activity) Bedrossian, M. February, 240A– 240B. Copper(I) Chloride. (CLIP) Young, J. A. July, 991. Copper(II) Acetate Monohydrate. (CLIP) Young, J. A. July, 990. Copper(II) Nitrate Trihydrate. (CLIP) Young, J. A. March, 375. Correction to “DeLorenzo’s Four Interesting Mysteries Verified” (re J. Chem. Educ. 2002, 79, 1217–1219). (Correction) Ferriols-Pavico, J. M. August, 1151. Correction to “Heat and Temperature Conductivity of Baths” (re J. Chem. Educ. 2005, 82, 380–381). (Correction) Lunelli, B. June, 839.

Heat Capacity Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. The q/T Paradox: Which “Contains More Heat”, a Cup of Coffee at 95 °C or a Liter of Icewater? (TD) Vitz, E.; Schuman, M. J. June, 856–860.

Helium Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090.

Heterocycles Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. Polypyrazolylborates: Scorpionates. (POC) Trofimenko, S. November, 1715–1720. Quantitative Thermodynamic Descriptions of Aromaticity. A Computational Exercise for the Organic Chemistry Laboratory. (MMEE) Gavin, T. June, 953–957. Synthesis of Meso-Octamethylporphyrinogen: An Undergraduate Laboratory Mini-Scale Experiment in Organic Heterocyclic Chemistry. (ML) Sobral, A. J. April, 618–620. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583.

High-Performance Liquid Chromatography (HPLC) Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. June, 924–925. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316.

High School / Introductory Chemistry A 3D Model of Double-Helical DNA Showing Variable Chemical Details. Cady, S. January, 79–84. 8:31 a.m. Belly Flop: Attitude Adjustment through Weekly Feature Molecules. Franklin, S. J.; Pienta, N. J.; Fry, M. D. June, 847–850. ACS National Meeting. ACS Presidential Events: San Diego. Carroll, W. F., Jr. March, 364. ACS’s Adopt a Teacher Program. (EHST) Mason, D. S. March, 345. Amino Acid Complementarity: A Biochemical Exemplar

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JCE Chemical Laboratory Information Profiles (CLIPs) on CD-ROM. Abstract of JCE CLIPs 2005. (JCE Software) Holmes, J. L. November, 1744. JCE: The Leader of Change. (EHST) Mason, D. S. December, 1753. Learner-Centered Education. (EHST) Mason, D. S. August, 1113. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Light Up Your Life. (EHST) Mason, D. S. January, 9. Lithium. (CLIP) Young, J. A. April, 520. Luminol (3-Aminophthalhydrazide). (CLIP) Young, J. A. October, 1465. Magnesium Oxide. (CLIP) Young, J. A. May, 677. Magnesium Sulfate. (CLIP) Young, J. A. May, 678. Make Your Mark in Science. Creativity, Presenting, Publishing, and Patents. A Guide for Young Scientists (by Claus Ascheron and Angela Kickuth). (BMR) Kovac, J. D. September, 1313. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. Paddock, J. R.; Maghasi, A. T.; Heineman, W. R.; Seliskar, C. J. September, 1370–1371. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. DeMeo, S. August, 1219– 1222. The Match Game: A Discovery of the Laboratory Equipment Used in General Chemistry. (VIEW) Greengold, S. L. April, 547–548. Meeting Report: Chemistry Everywhere. A Brief Report on the 18th Biennial Conference on Chemical Education. Meints, C.; Burke, K. A. January, 17–20. Meeting Report: Teaching High School Chemistry as a Second Career. Summary of Presidential Symposium. Scharberg, M. A. September, 1281–1285. Memory Metal. (JCE Classroom Activity) JCE Editorial Staff. October, 1488A–1488B. Mercury Thermometer Replacements in Chemistry Laboratories. Foster, B. L. February, 269–270. Mercury. (CLIP) Young, J. A. February, 203. A Methane Balloon Inflation Chamber. (TD) Czerwinski, C. J.; Cordes, T. J. February, 248–250. A Modified Demonstration of the Catalytic Decomposition of Hydrogen Peroxide. (TD) Trujillo, C. A. June, 855. More Elementary Riddles. Cunningham, K. D. April, 539–540. Napoleon’s Buttons: Teaching the Role of Chemistry in History. Samet, C.; Higgins, P. J. October, 1496– 1500. National Chemistry Week 2005: Cover Feature. Soap Films and the Joy of Bubbles. Saecker, M. E. October, 1447. National Chemistry Week 2005: The Joy of Toys. JCE Resources for Chemistry and Toys. Jacobsen, E. K. October, 1443–1446. The Nature of Hydrogen Bonding. (JCE Classroom Activity) Schultz, E. March, 400A–400B. News from Online: Toying with Chemistry. (ROJOnline) Harris, J.; Kehoe, S. October, 1458–1460. Nickel(II) Carbonate. (CLIP) Young, J. A. June, 830. Nickel(II) Oxide. (CLIP) Young, J. A. June, 831. Nitrogen: It Always Needs a Fix. (FPI) Williams, K. R. February, 194–195. No Problems with Q. (Letter) Lederer, R. August, 1149. “Only When You Know the Hazards…”. (EHST) Jacobsen, E. K. July, 969. The Origin of the 18-Electron Rule. (ASK) Jensen, W. B. January, 28. The Origin of the Bunsen Burner. (ASK) Jensen, W. B. April, 518. The Origin of the Name “Nylon”. (ASK) Jensen, W. B. May, 676. The Origins of Positive and Negative in Electricity. (ASK) Jensen, W. B. July, 988. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Peer-Reviewed WebWare: Connected Chemistry. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. March, 494. The Physics Teacher: Black Boxes, Frozen Lakes, and What = mc 2. (ROJPhysTea) Clark, R. W. November, 1611–

A Demonstration of Sample Segregation. (TD) Fritz, M. D. February, 255–256. Designing Element T-shirts: Spelling with the Periodic Table. Palmer, J.; Brosnick, L. April, 517. The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. E = mc 2 for the Chemist: When Is Mass Conserved? Treptow, R. S. November, 1636–1641. The Effects of Thinking Aloud Pair Problem Solving on High School Students’ Chemistry Problem-Solving Performance and Verbal Interaction. (CER) Jeon, K.; Huffman, D.; Noh, T. October, 1558–1564. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) Wally, L. M.; Levinger, N. E.; Grainger, D. W. October, 1489–1495. Evaluating Students’ Conceptual Understanding of Balanced Equations and Stoichiometric Ratios Using a Particulate Drawing. (CER) Sanger, M. J. January, 131–134. Experiences and Reflections about Teaching Atomic Structure in a Jigsaw Classroom in Lower Secondary School Chemistry Lessons. (CER) Eilks, I. February, 313–319. Exploration of the Chemistry of Plants: A General Education Course. (IC) Séquin, M. December, 1787– 1790. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) Oliver-Hoyo, M. T.; Switzer, W. L., III. February, 251–254. From Masurium to Trinacrium: The Troubled Story of Element 43. Zingales, R. February, 221–227. Fully Exploiting the Potential of the Periodic Table through Pattern Recognition. Schultz, E. November, 1649–1657. Gedanken Experiments. (EHST) Mason, D. S. November, 1593. A Greener Approach for Measuring Colligative Properties. (GRN) McCarthy, S. M.; Gordon-Wylie, S. W. January, 116–119. Hands On Plastics (re J. Chem. Educ. 2004, 81, 1309, 1312A). (Letter) Harris, H. H.; Harris, M. E. February, 209. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. February, 257–259. Heat and Temperature Conductivity of Baths (re J. Chem. Educ. 2002, 79, 1109). (Letter) Lunelli, B. March, 380–381. Heat and Temperature Conductivity of Baths—Author Reply (re J. Chem. Educ. 2002, 79, 1109). (Letter) Joling, E. March, 381. Hydrogen Sulfide. (CLIP) Young, J. A. February, 202. I Screen, You Screen, We All Screen for Phenolics. (JCE Classroom Activity) Sady, M. B. December, 1808A– 1808B. Improving Conceptions in Analytical Chemistry: ciVi = cfVf. Rodríguez-López, M.; Carrasquillo, A., Jr. September, 1327–1328. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. An Interactive Classroom Activity Demonstrating Reaction Mechanisms and Rate-Determining Steps. (AA) Jennings, L. D.; Keller, S. W. April, 549–550. Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. Casey, R. E.; Pittman, F. A. February, 260–264. Introducing Safety Topics Using a Student-Centered Approach. (ST) Wright, S. M. October, 1519–1520. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. Introductory Chemistry Needs a Revolution. ACS and IUPAC and AAAS and ICUC Should Lead It. (Commentary) Hawkes, S. J. November, 1615–1616. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. Investigating the Photoelectric Effect Using LEDs and a Modular Spectroscope. Diaz, L.; Smith, C. A. June, 906–908.

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1612. Poly(Vinyl Alcohol). (CLIP) Young, J. A. October, 1466. Polymer Chemistry: Introduction to an Indispensable Science (by David M. Teegarden). (BMR) Matthews, M. S. February, 213–214. Potassium Hydroxide. (CLIP) Young, J. A. September, 1304. Potassium Nitrate. (CLIP) Young, J. A. September, 1305. Predicting the Atomic Weights of the Trans-Lawrencium Elements: A Novel Application of Dobereiner’s Triads. Ibrahim, S. A. November, 1658–1659. Putting A Human Face on Equilibrium. (VIEW) Glickstein, N. March, 391–392. Q & A Session. (EHST) Jacobsen, E. K. September, 1273. The q/T Paradox: Which “Contains More Heat”, a Cup of Coffee at 95 °C or a Liter of Icewater? (TD) Vitz, E.; Schuman, M. J. June, 856–860. Qualitative Organic Analysis—In the Classroom and Laboratory. Finley, K. T. February, 240. The Reaction Quotient (Q) IS Useful After All (re J. Chem. Educ. 2005, 82, 406–407. (Letter) Silverstein, T. P. August, 1149. The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems. (2AP) Matsumoto, P. S. March, 406–407. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Reaction to “Chemistry Is Not a Laboratory Science”— Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 997–998. Reactions to “The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems” —Author Reply (J. Chem. Educ. 2005, 82, 406–407). (Letter) Matsumoto, P. S. August, 1150. Regarding Entropy Analysis (re J. Chem. Educ. 2004, 81, 1585–1594). (Letter) Hanson, R. M. June, 839. Regarding Entropy Analysis—Author Reply (re J. Chem. Educ. 2004, 81, 1585–1594). (Letter) Bindel, T. H. June, 839. Report: Celebrate Earth Day with ACS. Jacobsen, E. K. March, 354. Report: Einstein Revisited. Fine, L. W. November, 1601– 1608. Response to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Morton, S. D. July, 997. Revisiting Millikan’s Oil-Drop Experiment. Pearson, E. F. June, 851–854. Revisiting the Electric Pickle Demonstration. (TD) Rizzo, M. M.; Halmi, T. A.; Jircitano, A. J.; Kociolek, M. G.; Magraw, J. A. April, 545–546. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) Wright, S. W. April, 542–544. Science Days: An Interdisciplinary Outreach Program. (CFK) Flynn, N. E. October, 1483–1485. The Science Teacher: Fall 2005. (ROJSciTea) Long, S. November, 1609. The Science Teacher: Spring 2005. (ROJSciTea) Long, S. April, 514–515. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612. Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. Todebush, P. M.; Geiger, F. M. October, 1542–1545. Service-Learning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. Esson, J. M.; Stevens-Truss, R.; Thomas, A. August, 1168–1173. A Set of Hands-On Exercises on Conformational Analysis. Pellegrinet, S. C.; Mata, E. G. January, 73–74. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. A Simple and Easy-To-Learn Chart of the Main Classes of Inorganic Compounds and Their Acid–Base Reactions. Sereda, G. November, 1645–1648. Simple Dynamic Models for Hydrogen Bonding Using Velcro-Polarized Molecular Models. Schultz, E. March, 401–405. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. February, 282–285. A Small-Scale Low-Cost Gas Chromatograph. (CET) Gros, N.; Vrtacˇnik, M. February, 291–293. Sodium Borate Hydrogen Peroxidate Trihydrate. (CLIP) Young, J. A. January, 30.


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Subject Index • Volume 82 • 2005 Some Footnotes on the History of Masurium. (Letter) Wagner, H. J. September, 1309. Some Insights Regarding a Popular Introductory Gas Law Experiment. DePierro, E.; Garafalo, F. August, 1194–1196. Steel Wool and Oxygen: A Look at Kinetics. Gordon, J. S.; Chancey, K. July, 1065–1067. Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Student Opinions Regarding Inquiry-Based Labs. (VIEW) Deters, K. M. August, 1178–1180. The Student-to-Student Chemistry Initiative: The Impact of Chemistry Demonstration Programs Presented by High School Students at Elementary Schools. Voegel, P. D.; Quashnock, K. A.; Heil, K. M. April, 634–636. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400. The Symbolism of Chemical Equations. (ASK) Jensen, W. B. October, 1461. Synthesis and Analysis of Copper Hydroxy Double Salts. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. November, 1662. Taking Issue with “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Stephens, C. E. July, 998. Taking Issue with “Chemistry Is Not a Laboratory Science”—Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 998–999. Teaching Significant Figures Using Age Conversions. (AA) Crute, T. D. October, 1507–1508. Techniques To Enhance Instructors’ Teaching Effectiveness with Chemistry Students Who Are Blind or Visually Impaired. Supalo, C. October, 1513–1518. Telling the Stories of Chemistry. Kitson, T. M. October, 1504. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598. Thermal Expansion: Using Calculator-Based Laboratory Technology To Observe the Anomalous Behavior of Water. Branca, M.; Soletta, I. April, 613–615. Toys in the Classroom. Sarquis, J. L.; Sarquis, A. M. October, 1450–1453. Trends in Ionization Energy of Transition-Metal Elements. Matsumoto, P. S. November, 1660–1661. The Tried and True with a Cyclic Twist. (EHST) Mason, D. S. April, 505. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B. Turning on the Light: Lessons from Luminescence. O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 49– 52. Turning on the Light. (JCE Classroom Activity) O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 48A–48B. Water Wordsearch. Helser, T. L. April, 551. Weighing Paper Substitute. (CET) Ruekberg, B. April, 620. The World According to Nanotechnology. (EHST) Mason, D. S. May, 665. Zinc (dust and bulk). (CLIP) Young, J. A. August, 1143. Zinc Nitrate Hexahydrate. (CLIP) Young, J. A. August, 1144.

History / Philosophy The ACS Prize Essay Contest. (FPI) Rice, R. E. December, 1765–1767. Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. Characterization and Classification of Lanthanides by Multivariate-Analysis Methods. Horovitz, O.; Sârbu, C. March, 473–483. Chemistry in the City: An Amendment (re J. Chem. Educ. 2003, 80, 850–856). (Letter) Fine, L. W. January, 38. Chemistry, Creativity, Collaboration, and C60: An Interview with Harold W. Kroto. Cardellini, L. May, 751–755. Chemistry, The Central Science? The History of the High School Science Sequence. (SSC) Sheppard, K.; Robbins, D. M. April, 561–566. Conant Award Interview: An Interview with Annis Hapkiewicz, 2005 Award Winner. (Award Address) JCE Editorial Staff. September, 1287–1291. Correction to “Henry’s Law: A Retrospective” (re J.

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www.JCE.DivChed.org/Journal/Search/ An Interactive Classroom Activity Demonstrating Reaction Mechanisms and Rate-Determining Steps. (AA) Jennings, L. D.; Keller, S. W. April, 549–550. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. Barreto, M. C. January, 103–104. The Match Game: A Discovery of the Laboratory Equipment Used in General Chemistry. (VIEW) Greengold, S. L. April, 547–548. A Modified Demonstration of the Catalytic Decomposition of Hydrogen Peroxide. (TD) Trujillo, C. A. June, 855. More Elementary Riddles. Cunningham, K. D. April, 539–540. Music and Chemistry (re J. Chem. Educ. 2004, 81, 507– 508). (Letter) Behrman, E. J. January, 37. National Chemistry Week 2005: Cover Feature. Soap Films and the Joy of Bubbles. Saecker, M. E. October, 1447. National Chemistry Week 2005: The Joy of Toys. JCE Resources for Chemistry and Toys. Jacobsen, E. K. October, 1443–1446. News from Online: Toying with Chemistry. (ROJOnline) Harris, J.; Kehoe, S. October, 1458–1460. On the Buoyancy of a Helium-Filled Balloon. Harriman, J. E. February, 246–247. Revisiting the Electric Pickle Demonstration. (TD) Rizzo, M. M.; Halmi, T. A.; Jircitano, A. J.; Kociolek, M. G.; Magraw, J. A. April, 545–546. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) Wright, S. W. April, 542–544. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Teaching Significant Figures Using Age Conversions. (AA) Crute, T. D. October, 1507–1508. Using Building-Block Puzzles To Practice Drawing Organic Mechanisms. Erdik, E. September, 1325–1326. Water Wordsearch. Helser, T. L. April, 551.

Chem. Educ. 2004, 81, 1647–1652). (Correction) Rosenberg, R. M.; Peticolas, W. January, 38. E = mc 2 for the Chemist: When Is Mass Conserved? Treptow, R. S. November, 1636–1641. Early Spectroscopy and the Balmer Lines of Hydrogen (re J. Chem. Educ. 2003, 80, 1003). (Letter) Wagner, H. J. March, 380. Early Spectroscopy and the Balmer Lines of Hydrogen— Author Reply (re J. Chem. Educ. 2003, 80, 1003). (Letter) Retcofsky, H. L. March, 380. Fifty Ways To Make Boric Acid (with Apologies to Paul Simon). Davis, C. M. April, 541. From Masurium to Trinacrium: The Troubled Story of Element 43. Zingales, R. February, 221–227. Good Chemical Measurements, Good Public Policies. (Commentary) Faulkner, L. R. February, 190–193. It Was a Very Good Year. (Editorial) Moore, J. W. November, 1591. Misconceptions in Sign Conventions: Flipping the Electric Dipole Moment. Hovick, J. W.; Poler, J. C. June, 889. More Elementary Riddles. Cunningham, K. D. April, 539–540. Napoleon’s Buttons: Teaching the Role of Chemistry in History. Samet, C.; Higgins, P. J. October, 1496– 1500. Nitrogen: It Always Needs a Fix. (FPI) Williams, K. R. February, 194–195. The Origin of the 18-Electron Rule. (ASK) Jensen, W. B. January, 28. The Origin of the Bunsen Burner. (ASK) Jensen, W. B. April, 518. The Origin of the Name “Nylon”. (ASK) Jensen, W. B. May, 676. The Origins of Positive and Negative in Electricity. (ASK) Jensen, W. B. July, 988. The Origins of the Symbols A and Z for Atomic Weight and Number. (ASK) Jensen, W. B. December, 1764. Predicting the Atomic Weights of the Trans-Lawrencium Elements: A Novel Application of Dobereiner’s Triads. Ibrahim, S. A. November, 1658–1659. Promethean Ambitions: Alchemy and the Quest to Perfect Nature (by William R. Newman). (BMR) Bernal, P. J. April, 531–532. Putting A Human Face on Equilibrium. (VIEW) Glickstein, N. March, 391–392. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Report: Einstein Revisited. Fine, L. W. November, 1601– 1608. Revisiting Millikan’s Oil-Drop Experiment. Pearson, E. F. June, 851–854. The Science Teacher: Fall 2005. (ROJSciTea) Long, S. November, 1609. The Science Teacher: Spring 2005. (ROJSciTea) Long, S. April, 514–515. Some Footnotes on the History of Masurium. (Letter) Wagner, H. J. September, 1309. Summer Reading. Pagni, R. M.; Frech, C. B.; Coppola, B. P.; Harris, H. H.; Kovac, J. D. June, 817–824. The Symbolism of Chemical Equations. (ASK) Jensen, W. B. October, 1461. Teaching Science Amid Controversy. (Editorial) Moore, J. W. September, 1271. Valence, Covalence, Hypervalence, Oxidation State, and Coordination Number. Smith, D. W. August, 1202– 1204. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522.

Hydrogen Hydrogen Sulfide. (CLIP) Young, J. A. February, 202. More Elementary Riddles. Cunningham, K. D. April, 539–540. The Nature of Hydrogen Bonding. (JCE Classroom Activity) Schultz, E. March, 400A–400B. Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090.

Hydrogen Bonding Further Analysis of Boiling Points of Small Molecules, CHwFxClyBrz. Beauchamp, G. December, 1842–1845. Simple Dynamic Models for Hydrogen Bonding Using Velcro-Polarized Molecular Models. Schultz, E. March, 401–405. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´ , T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681.

Industrial Chemistry Are We Serious about Preparing Chemists for the 21st Century Workplace or Are We Just Teaching Chemistry? Kerr, S.; Runquist, O. February, 231–233. Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. FríasFerrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. September, 1395–1398. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381. Improving Conceptions in Analytical Chemistry: ciVi = cfVf. Rodríguez-López, M.; Carrasquillo, A., Jr. September, 1327–1328. An Industrial Chemistry Course That Optimizes the Value of Plant Tours. Hartman, J. S. February, 234– 239. Nitrogen: It Always Needs a Fix. (FPI) Williams, K. R. February, 194–195. The Origin of the Name “Nylon”. (ASK) Jensen, W. B. May, 676.

Humor / Puzzles / Games Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. The Cartoon Guide to Chemistry (by Larry Gonick and Craig Criddle. (BMR) Harris, H. H. December, 1777–1778. Chirality Made Simple: A 1- and 2-Dimensional Introduction to Stereochemistry. Gawley, R. E. July, 1009– 1012. Christmas in October. (EHST) Jacobsen, E. K. October, 1433. Correction to “DeLorenzo’s Four Interesting Mysteries Verified” (re J. Chem. Educ. 2002, 79, 1217–1219). (Correction) Ferriols-Pavico, J. M. August, 1151. Fifty Ways To Make Boric Acid (with Apologies to Paul Simon). Davis, C. M. April, 541. “In Yeast” Wordsearch. Helser, T. L. April, 552.

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Reduction of Ilmenite with Charcoal. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 456–459. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. The Relationship between Balancing Reactions and Reaction Lifetimes: A Consideration of the Potassium– Argon Radiometric Method for Dating Minerals. Howard, W. A. July, 1094–1098. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Research Advances: Children on School Buses May Face Increased Exposure to Diesel Pollution; Where Did All the Nitrogen Go?; Designer Wires. (ROJResAdv) King, A. G. October, 1434–1438. Research Advances: Horseradish, Peroxide Mixture May End War of the Noses; Even Low Levels of Benzene Are Hemotoxic; New “Nuclear Battery” Runs 10 Years, 10 Times More Powerful. (ROJResAdv) King, A. G. November, 1594–1597. Research Advances: Nitric Oxide Synthase Reduces Cr(VI); The Chemistry of Popcorn: It’s All About “Pop-Ability”; Nanotubes May Help Heal Broken Bones; New Method Unites Organic Materials and Nanotechnology. (ROJResAdv) King, A. G. December, 1754–1759. Rotor-shaped Cyclopentadienyltetraphenylcyclobutadienecobalt. An Advanced Inorganic Experiment. MacFarland, D. K.; Gorodetzer, R. January, 109–110. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. November, 1697–1699. Self-Assembled Colloidal Crystals: Visualizing Atomic Crystal Chemistry Using Microscopic Analogues of Inorganic Solids. Abrams, N. M.; Schaak, R. E. March, 450–452. A Simple and Easy-To-Learn Chart of the Main Classes of Inorganic Compounds and Their Acid–Base Reactions. Sereda, G. November, 1645–1648. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. Johnson, A. R.; McQueen, T. M.; Rodolfa, K. T. March, 408–414. Spectacular Breeding of Crystals on Silica Gel. Piekos, R.; Teodorczyk, J. March, 448–449. Spectrophotometric Determination of the Hole Concentration in the Superconductor YBa2Cu3O7᎑x: An Undergraduate Experiment. Hoppé, J. I.; Malati, M. A. February, 299–301. STEMming the Tide: Using Career Week Activities To Recruit Future Chemists. Bopegedera, A. M. October, 1505–1506. Structure and Bonding in Group 14 Congeners of Ethene: DFT Calculations in the Inorganic Chemistry Laboratory. (MMEE) Streit, B. R.; Geiger, D. K. January, 111–115. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. Williams, G. L.; Vohs, J. K.; Brege, J. J.; Fahlman, B. D. May, 771– 774. Synthesis and Analysis of Copper Hydroxy Double Salts. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. November, 1662. Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. Getzler, Y. D.; Schmidt, J. A.; Coates, G. W. April, 621–624. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. May, 765–768. Trends in Ionization Energy of Transition-Metal Elements. Matsumoto, P. S. November, 1660–1661. The Use of the Free, Open-Source Program Jmol To Generate an Interactive Web Site To Teach Molecular Symmetry. Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1736–1740. Valence, Covalence, Hypervalence, Oxidation State, and Coordination Number. Smith, D. W. August, 1202– 1204. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522.

Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Properties of the Lanthanide Metals: Correlations and Discontinuities (re J. Chem. Educ. 2005, 82, 473– 483). (Letter) Laing, M. November, 1623.

Inorganic Chemistry An Animated Interactive Overview of Molecular Symmetry. (JCE WebWare) Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1742–1743. Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. Cerrada, E.; Laguna, M. April, 630–633. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Crystallographic Study of Manganese(III) Acetylacetonate: An Advanced Undergraduate Project with Unexpected Challenges. Geremia, S.; Demitri, N. March, 460–465. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Fifty Ways To Make Boric Acid (with Apologies to Paul Simon). Davis, C. M. April, 541. Fully Exploiting the Potential of the Periodic Table through Pattern Recognition. Schultz, E. November, 1649–1657. Hydrolysis of Pentaamminechlorocobalt(III): A Unified Mechanistic View. González-Ferrer, G.; Martínez López, M. November, 1671–1673. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557. Instant Notes in Inorganic Chemistry, Second Edition (by P. A. Cox). (BMR) Smith, P. M. February, 213. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 453–455. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? de Levie, R. June, 885–888. A Lattice Energy Spreadsheet. (JCE WebWare) King, C. October, 1584. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. More on Element 43. (Letter) Kauffman, G. B. September, 1310. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Soltzberg, L. J.; Brown, V. April, 526. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate—Author Reply (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Herrera-Melián, J. A.; Araña Mesa, J. April, 526. The Origin of the 18-Electron Rule. (ASK) Jensen, W. B. January, 28. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. Polypyrazolylborates: Scorpionates. (POC) Trofimenko, S. November, 1715–1720. Predicting the Atomic Weights of the Trans-Lawrencium Elements: A Novel Application of Dobereiner’s Triads. Ibrahim, S. A. November, 1658–1659. Preparation of Dppe-Stabilized Gold Nanoparticles. Dungey, K. E.; Muller, D. P.; Gunter, T. May, 769– 770. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667– 1670. Properties of the Lanthanide Metals: Correlations and Discontinuities (re J. Chem. Educ. 2005, 82, 473– 483). (Letter) Laing, M. November, 1623. The Pythagorean Theorem and the Solid State. Kelly, B. S.; Splittgerber, A. G. May, 756–761.

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Inquiry-Based / Discovery Learning ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363.

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ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051– 1052. Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Young, J. A. December, 1775. An Azulene-Based Discovery Experiment: Challenging Students To Watch for the “False Assumption”. Garner, C. M. November, 1686–1688. Christmas in October. (EHST) Jacobsen, E. K. October, 1433. Classroom Credit. (EHST) Jacobsen, E. K. February, 185. A Closer Look at Acid–Base Olfactory Titrations. Neppel, K.; Oliver-Hoyo, M. T.; Queen, C.; Reed, N. April, 607–610. Communicating Science to the Public through a University–Museum Partnership. Payne, A. C.; deProphetis, W. A.; Ellis, A. B.; Derenne, T. G.; Zenner, G. M.; Crone, W. C. May, 743–750. A Cool Drink! An Introduction to Concentrations. (JCE Classroom Activity) Bedrossian, M. February, 240A– 240B. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Departing from Lectures: An Evaluation of a Peer-Led Guided Inquiry Alternative. (CER) Lewis, S. E.; Lewis, J. E. January, 135–139. Diels–Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. April, 625–629. The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. Hands On Plastics (re J. Chem. Educ. 2004, 81, 1309, 1312A). (Letter) Harris, H. H.; Harris, M. E. February, 209. The Inquiry Wheel, an Alternative to the Scientific Method (re J. Chem. Educ. 2004, 81, 791–792. (Letter) Wink, D. J. May, 682. The Inquiry Wheel, an Alternative to the Scientific Method—Author Reply (re J. Chem. Educ. 2004, 81, 791–792. (Letter) Harwood, W. S. May, 682. Introducing Safety Topics Using a Student-Centered Approach. (ST) Wright, S. M. October, 1519–1520. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389. The Science Teacher: Spring 2005. (ROJSciTea) Long, S. April, 514–515. Service-Learning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. Esson, J. M.; Stevens-Truss, R.; Thomas, A. August, 1168–1173. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. Showcasing Successful Practices That Enhance a Research-Supportive Undergraduate Curriculum. (CUR) Karukstis, K. K. October, 1440–1441. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. Warnke, M. M.; Erickson, A. E.; Smith, E. T. July, 1082–1085. Student Opinions Regarding Inquiry-Based Labs. (VIEW) Deters, K. M. August, 1178–1180. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. Williams, G. L.; Vohs, J. K.; Brege, J. J.; Fahlman, B. D. May, 771– 774. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379. The Tried and True with a Cyclic Twist. (EHST) Mason, D. S. April, 505. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory.


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Subject Index • Volume 82 • 2005 Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) Harris, H. H. April, 530–531.

Instrumental Methods Analytical Chemistry for Technicians, 3rd Edition (by John Kenkel). (BMR) Harvey, D. T. January, 39. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. June, 901–902. Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) Alibrandi, G.; D’Aliberti, S.; Coppolino, S.; Villari, A.; Micali, N. March, 442–444. Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. Mills, N. S.; Spence, J. D.; Bushey, M. M. August, 1226–1228. A Chemometrics Module for an Undergraduate Instrumental Analysis Chemistry Course. Msimanga, H. Z.; Elkins, P.; Tata, S. K.; Smith, D. R. March, 415–424. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. Reed, N. A.; Rapp, R. D.; Hamann, C. S.; Artz, P. G. July, 1053–1054. A Convenient Method for Dispensing Organometallic Reagents. (CET) Newton, T. A. June, 936. The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. Seney, C. S.; Sinclair, K. V.; Bright, R. M.; Momoh, P. O.; Bozeman, A. D. December, 1826–1829. Does a Photochemical Reaction Have a Kinetic Order? (re J. Chem. Educ. 2003, 80, 1074–1077). (Letter) Toby, S. January, 37. Does a Photochemical Reaction Have a Kinetic Order?— Author Reply (re J. Chem. Educ. 2003, 80, 1074– 1077). (Letter) Hippler, M. January, 37. Enthalpy of Vaporization by Gas Chromatography: A Physical Chemistry Experiment. Ellison, H. R. July, 1086–1088. Environmental Laboratory Exercises for Instrumental Analysis and Environmental Chemistry (by Frank M. Dunnivant). (BMR) De Jesús, M. A. March, 382. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. An Experimental Introduction to Interlaboratory Exercises in Analytical Chemistry. Puignou, L.; Llauradó, M. July, 1079–1081. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. Fundamentals of Biomolecule Analysis by Electrospray Ionization Mass Spectrometry. An Instrumental Analysis Laboratory Experiment. Weinecke, A.; Ryzhov, V. January, 99–102. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. Heinz, W. F.; Hoh, J. H. May, 695–703. Instrumental Proficiency Program for Undergraduates. Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. June, 898– 900. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. Investigating the Photoelectric Effect Using LEDs and a Modular Spectroscope. Diaz, L.; Smith, C. A. June, 906–908.

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Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392. A Networked NMR Spectrometer: Configuring a Shared Instrument. Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Kosinski, J.; Sinton, M. September, 1342–1344. NMR Analysis of Unknowns: An Introduction to 2D NMR Spectroscopy. Alonso, D. E.; Warren, S. E. September, 1385–1386. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. June, 912–915. Realizing Workplace Skills in Instrumental Analysis. Kalivas, J. H. June, 895–897. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973. Sequential-Injection Analysis: Principles, Instrument Construction, and Demonstration by a Simple Experiment. (TICI) Economou, A.; Tzanavaras, P. D.; Themelis, D. G. December, 1820–1822. Simple and Inexpensive Computer Interface to a Durrum Stopped-Flow Apparatus Tested Using the Iron(III)– Thiocyanate Reaction. (CBB) Hoag, C. M. December, 1823–1825. A Simple Low-Cost Lock-In Amplifier for the Laboratory. (TICI) Sengupta, S. K.; Farnham, J. M.; Whitten, J. E. September, 1399–1401. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. February, 282–285. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. Warnke, M. M.; Erickson, A. E.; Smith, E. T. July, 1082–1085. Spectrophotometric Determination of the Dissociation Constant of an Acid–Base Indicator Using a Mathematical Deconvolution Technique. Alter, K. P.; Molloy, J. L.; Niemeyer, E. D. November, 1682–1685. Surface pKa of Self-Assembled Monolayers. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. May, 779– 781. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. Antler, M.; Salin, E.; Wilczek-Vera, G. March, 425–427. Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090. Variable Effects during Polymerization. Lunsford, S. K. December, 1830–1832. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918. Writing-Intensive Multimedia Projects in the Instrumental Methods Course. Van Ryswyk, H. January, 70–72.

Community-Based Research. A New Paradigm for Undergraduate Research in the Sciences. (CUR) Karukstis, K. K. January, 15–16. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020. Education in Environmental Chemistry: Setting the Agenda and Recommending Action. A Workshop Report Summary. Zoller, U. August, 1237–1240. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Exploration of the Chemistry of Plants: A General Education Course. (IC) Séquin, M. December, 1787– 1790. A General Chemistry and Precalculus First-Year Interest Group (FIG): Effect on Retention, Skills, and Attitudes. Pence, L. E.; Workman, H. J.; Haruta, M. E. January, 65–69. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) Herman, C.; Casiday, R. E.; Deppe, R. K.; Gilbertson, M.; Spees, W. M.; Holten, D.; Frey, R. F. December, 1871–1879. Interlaboratory Collaborations in the Undergraduate Setting. Megehee, E. G.; Hyslop, A. G.; Rosso, R. J. September, 1345–1348. Introducing JCE LivTexts: Physical Chemistry. (JCE LivTexts) Zielinski, T. J. December, 1880. The Joy of Chemistry: The Amazing Science of Familiar Things (by Cathy Cobb and Monty L. Fetterolf ). (BMR) Matthews, M. S. October, 1475. Molecular Visualization in Science Education: An Evaluation of an NSF-Sponsored Workshop. (CER) José, T.; Williamson, V. M. June, 937–943. Nantribology: Rubbing on a Small Scale. Dickinson, J. T. May, 734–742. Napoleon’s Buttons: Teaching the Role of Chemistry in History. Samet, C.; Higgins, P. J. October, 1496– 1500. On-Site Reviews and Institutes To Assess and Strengthen Undergraduate Departments and Programs. (CUR) Karukstis, K. K.; Rowlett, R. April, 512–513. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167. Putting A Human Face on Equilibrium. (VIEW) Glickstein, N. March, 391–392. Science Days: An Interdisciplinary Outreach Program. (CFK) Flynn, N. E. October, 1483–1485. Showcasing Successful Practices That Enhance a Research-Supportive Undergraduate Curriculum. (CUR) Karukstis, K. K. October, 1440–1441. Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Telling the Stories of Chemistry. Kitson, T. M. October, 1504. Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´ , T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) Harris, H. H. April, 530–531.

Interdisciplinary / Multidisciplinary An Approach Towards Teaching Green Chemistry Fundamentals. (GRN) Van Arnum, S. D. November, 1689–1692. Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. The Art and Science of Light. An Interdisciplinary Teaching and Learning Experience. (IC) Bopegedera, A. M. January, 55–59. Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. Chemistry, Creativity, Collaboration, and C60: An Interview with Harold W. Kroto. Cardellini, L. May, 751–755. Communicating Science to the Public through a University–Museum Partnership. Payne, A. C.; deProphetis, W. A.; Ellis, A. B.; Derenne, T. G.; Zenner, G. M.; Crone, W. C. May, 743–750.

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Interdisciplinary Connections The Art and Science of Light. An Interdisciplinary Teaching and Learning Experience. (IC) Bopegedera, A. M. January, 55–59. Exploration of the Chemistry of Plants: A General Education Course. (IC) Séquin, M. December, 1787– 1790.

Internet / Web-Based Learning 3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE

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www.JCE.DivCHED.org


Coleman, W. F. February, 264. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. June, 960. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. October, 1584. Peer-Reviewed WebWare: Connected Chemistry. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. March, 494. Photosystem II Oxygen-Evolving Complex. (JCE Featured Molecules) Coleman, W. F. May, 800. Quantum States of Atoms and Molecules. (JCE LivTexts) Hanson, D. M.; Zielinski, T. J.; Harvey, E.; Sweeney, R. December, 1880. Shikimic Acid. (JCE Featured Molecules) Coleman, W. F. April, 656. Teaching Molecular Symmetry with JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. November, 1741. The Use of the Free, Open-Source Program Jmol To Generate an Interactive Web Site To Teach Molecular Symmetry. Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1736–1740. Weekly Molecules: A Cure for the 8:30 a.m. Blues. (JCE Featured Molecules) Coleman, W. F. June, 850. Writing-Intensive Multimedia Projects in the Instrumental Methods Course. Van Ryswyk, H. January, 70–72.

WebWare) Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. November, 1741–1742. Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) Ship, N. J.; Zamble, D. B. December, 1805–1808. An Animated Interactive Overview of Molecular Symmetry. (JCE WebWare) Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1742–1743. Antimicrobial Agents Used on Textiles. (JCE Featured Molecules) Coleman, W. F. January, 171. Application of ChemDraw NMR Tool: Correlation of Program-Generated 13C Chemical Shifts and pKa Values of para-Substituted Benzoic Acids. Wang, H. September, 1340–1341. Assessing the Effect of Web-Based Learning Tools on Student Understanding of Stoichiometry Using Knowledge Space Theory. (TECH) Arasasingham, R. D.; Taagepera, M.; Potter, F.; Martorell, I.; Lonjers, S. August, 1251–1262. Azulene Chemistry. (JCE Featured Molecules) Coleman, W. F. November, 1688. Chemistry of Blood Types. (JCE Featured Molecules) Coleman, W. F. December, 1853. The Chemistry of Coffee. (JCE Featured Molecules) Coleman, W. F. August, 1167. Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) Whisnant, D. M.; Lever, L. S.; Howe, J. J. February, 334. Community of Effort. (Editorial) Moore, J. W. March, 343. Compounds That Promote Seed Germination. (JCE Featured Molecules) Coleman, W. F. March, 488. Connected Chemistry. (JCE WebWare) Stieff, M. March, 494. Faculty Guide for Moving Teaching and Learning to the Web, Second Edition (by Judith V. Boettcher and Rita-Marie Conrad). (BMR) Pienta, N. J. July, 1000. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557. Interactive Spreadsheets in JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. August, 1263. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) Herman, C.; Casiday, R. E.; Deppe, R. K.; Gilbertson, M.; Spees, W. M.; Holten, D.; Frey, R. F. December, 1871–1879. Introducing JCE ChemInfo: Organic. (JCE ChemInfo) Reich, H. March, 495–496. Introducing JCE LivTexts: Physical Chemistry. (JCE LivTexts) Zielinski, T. J. December, 1880. JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) Barrie, P. J. June, 958–959. JCE LivTexts: Living Textbooks for Chemistry. (Editorial) Moore, J. W. December, 1751. JCE LrnComOnline: Mission Statement. (JCE LrnCom Online) Zielinski, T. J.; Long, G. R. February, 335. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) Rosenstein, I. J. April, 652–654. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Menthol Stereoisomers. (JCE Featured Molecules) Coleman, W. F. July, 1048. More Interactive Spreadsheets in JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. September, 1423. Moth Repellent Chemicals. (JCE Featured Molecules) Coleman, W. F. September, 1324. Napoleon’s Buttons: Teaching the Role of Chemistry in History. Samet, C.; Higgins, P. J. October, 1496– 1500. News from Online: Toying with Chemistry. (ROJOnline) Harris, J.; Kehoe, S. October, 1458– 1460. Nicotine Smoke Chemistry. (JCE Featured Molecules) Coleman, W. F. October, 1583. Online Sources of Organic Data. (Letter) Myers, B. J. November, 1623. Organic Xenobiotics. (JCE Featured Molecules)

www.JCE.DivCHED.org


A Sensitive Nitrate Ion-Selective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) Bendikov, T. A.; Harmon, T. C. March, 439–441. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. May, 782–786.

Coleman, W. F. August, 1263–1264. The Ethylene Ketal Protecting Group Revisited: The Synthesis of 4-Hydroxy-4,4-diphenyl-2-butanone. Baar, M. R.; Russell, C. E.; Wustholz, K. L. July, 1057–1058. Formation of α-Tetralone by Intramolecular Friedel– Crafts Acylation. (ML) Holden, M. S.; Crouch, R. D.; Barker, K. H. June, 934–935. FTIR Determination of Pollutants in Automobile Exhaust: An Environmental Chemistry Experiment Comparing Cold-Start and Warm-Engine Conditions. Medhurst, L. J. February, 278–281. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. Clennan, M. M.; Clennan, E. L. November, 1676–1678. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave, G. W.; Raston, C. L. March, 468–469. An Introduction to Statistical Mechanics. (JCE SymMath) Francl, M. M. January, 175. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389. Organic Spectroscopy Laboratory: Utilizing IR and NMR in the Identification of an Unknown Substance. Glagovich, N. M.; Shine, T. D. September, 1382– 1384. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667– 1670. Presumptive and Confirmatory Drug Tests. Anderson, C. December, 1809–1810. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. June, 912–915. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973. Rotor-shaped Cyclopentadienyltetraphenylcyclobutadienecobalt. An Advanced Inorganic Experiment. MacFarland, D. K.; Gorodetzer, R. January, 109–110. Safe Preparation of HCl and DCl for IR Spectroscopy. (ST) Furlong, W. R.; Grubbs, W. T. January, 124. The Sharpless Asymmetric Dihydroxylation in the Organic Chemistry Majors Laboratory. Nichols, C. J.; Taylor, M. R. January, 105–108. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735.

IR Spectroscopy

Iron

Analog Spectrophotometers in the Digital Age: Data Acquisition on a Budget. (CET) Nazarenko, A. Y.; Nazarenko, N. A. February, 294–296. Bond Length Dependence on Quantum States as Shown by Spectroscopy. Lim, K. F. January, 145–149. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. Baar, M. R.; Wustholz, K. L. September, 1393–1394. The Effect of Anharmonicity on Diatomic Vibration: A Spreadsheet Simulation. (JCE WebWare) Lim, K. F.;

Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) Wright, S. W. April, 542–544. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B.

Iodine Concerning “A Reaction That Takes Place in Beakers but Not in Conical Flasks: A Catalysis-Related Demonstration” (re J. Chem. Educ. 2004, 81, 364). (Letter) Espenson, J. H. April, 527. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. DeMeo, S. August, 1219– 1222. Sublimation of Iodine at Various Pressures. Mutlipurpose Experiments in Inorganic and Physical Chemistry. Leenson, I. A. February, 241–245.

Ion Exchange Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. February, 257–259. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 453–455. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. Paddock, J. R.; Maghasi, A. T.; Heineman, W. R.; Seliskar, C. J. September, 1370–1371. Pharmaceutical Applications of Ion-Exchange Resins. (POC) Elder, D. P. April, 575–587. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. Bazzi, A.; Kreuz, B.; Wuokila, J.; Maqboul, A. March, 435–438.

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Subject Index • Volume 82 • 2005 Vrettos, J. S.; Allen, B. C. May, 791–794. Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. Heinson, C. D.; Williams, J. M.; Tinnerman, W. N.; Malloy, T. B. May, 787–789. From Masurium to Trinacrium: The Troubled Story of Element 43. Zingales, R. February, 221–227. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392. Some Footnotes on the History of Masurium. (Letter) Wagner, H. J. September, 1309.

JCE Classroom Activity Colors in Liquid Crystals. (JCE Classroom Activity) Lisensky, G. C.; Boatman, E. M. September, 1360A– 1360B. A Cool Drink! An Introduction to Concentrations. (JCE Classroom Activity) Bedrossian, M. February, 240A– 240B. I Screen, You Screen, We All Screen for Phenolics. (JCE Classroom Activity) Sady, M. B. December, 1808A– 1808B. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. Memory Metal. (JCE Classroom Activity) JCE Editorial Staff. October, 1488A–1488B. Nanopatterning with Lithography. (JCE Classroom Activity) Haynes, C. L.; McFarland, A. D.; Van Duyne, R. P.; Godwin, H. A. May, 768A–768B. The Nature of Hydrogen Bonding. (JCE Classroom Activity) Schultz, E. March, 400A–400B. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B. Turning on the Light. (JCE Classroom Activity) O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 48A–48B.


JCE LivTexts: Living Textbooks Introducing JCE LivTexts: Physical Chemistry. (JCE LivTexts) Zielinski, T. J. December, 1880. Quantum States of Atoms and Molecules. (JCE LivTexts) Hanson, D. M.; Zielinski, T. J.; Harvey, E.; Sweeney, R. December, 1880.

JCE LrnCom Online: Learning Communities Online Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) Whisnant, D. M.; Lever, L. S.; Howe, J. J. February, 334. JCE LrnComOnline: Mission Statement. (JCE LrnCom Online) Zielinski, T. J.; Long, G. R. February, 335.

Kinetic–Molecular Theory

JCE Online

Displacements of Brownian Particles in Terms of Marian von Smoluchowski’s Heuristic Model. Klein, H.; Woermann, D. November, 1642–1644. On the Buoyancy of a Helium-Filled Balloon. Harriman, J. E. February, 246–247.

JCE Online Store Grand Opening. (JCE Online) Holmes, J. L. January, 176.

JCE Digi Demos: Tested Demonstrations

JCE Software

Chemiluminescent Oscillating Demonstrations: The Chemical Buoy, the Lighting Wave, and the Ghostly Cylinder. (TD) Prypsztejn, H. E. January, 53–54. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020. Demonstrating Energy Migration in Coupled Oscillators: A Central Concept in the Theory of Unimolecular Reactions. (TD) Marcotte, R. E. October, 1530–1531. A Demonstration of Sample Segregation. (TD) Fritz, M. D. February, 255–256. A Device To Emulate Diffusion and Thermal Conductivity Using Water Flow. (TD) Blanck, H. F. October, 1523–1529. Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) Oliver-Hoyo, M. T.; Switzer, W. L., III. February, 251–254. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. February, 257–259. A Methane Balloon Inflation Chamber. (TD) Czerwinski, C. J.; Cordes, T. J. February, 248–250. A Modified Demonstration of the Catalytic Decomposition of Hydrogen Peroxide. (TD) Trujillo, C. A. June, 855. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. The q/T Paradox: Which “Contains More Heat”, a Cup of Coffee at 95 °C or a Liter of Icewater? (TD) Vitz, E.; Schuman, M. J. June, 856–860. Revisiting the Electric Pickle Demonstration. (TD) Rizzo, M. M.; Halmi, T. A.; Jircitano, A. J.; Kociolek, M. G.; Magraw, J. A. April, 545–546. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) Wright, S. W. April, 542–544.

Chemistry Comes Alive!, Volume 7. Abstract of Special Issue 32, a CD-ROM of Flames and Explosions. (JCE Software) Bain, R.; Jacobsen, J. J.; Maynard, J. H.; Moore, J. W. July, 1102–1104. JCE Chemical Laboratory Information Profiles (CLIPs) on CD-ROM. Abstract of JCE CLIPs 2005. (JCE Software) Holmes, J. L. November, 1744. Journal of Chemical Education on CD-ROM, 2004. Abstract of JCE CD 2004. (JCE Software) Holmes, J. L. February, 336.

JCE Featured Molecules Antimicrobial Agents Used on Textiles. (JCE Featured Molecules) Coleman, W. F. January, 171. Azulene Chemistry. (JCE Featured Molecules) Coleman, W. F. November, 1688.

3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. November, 1741–1742. An Animated Interactive Overview of Molecular Sym-

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metry. (JCE WebWare) Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1742–1743. Connected Chemistry. (JCE WebWare) Stieff, M. March, 494. The Effect of Anharmonicity on Diatomic Vibration: A Spreadsheet Simulation. (JCE WebWare) Lim, K. F.; Coleman, W. F. August, 1263–1264. Interactive Spreadsheets in JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. August, 1263. JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) Barrie, P. J. June, 960. A Lattice Energy Spreadsheet. (JCE WebWare) King, C. October, 1584. Mage: A Tool for Developing Interactive Instructional Graphics. (JCE WebWare) Pavkovic, S. F. January, 167–171. More Interactive Spreadsheets in JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. September, 1423. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. April, 655–656. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. June, 960. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. October, 1584. Peer-Reviewed WebWare: Connected Chemistry. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. March, 494. The Relation of Temperature to Energy Spreadsheet. (JCE WebWare) King, C. April, 656. Self-Consistent Field Calculations Spreadsheet. (JCE WebWare) Hoffman, G. G. September, 1423–1424. Teaching Molecular Symmetry with JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. November, 1741.

Chemistry of Blood Types. (JCE Featured Molecules) Coleman, W. F. December, 1853. The Chemistry of Coffee. (JCE Featured Molecules) Coleman, W. F. August, 1167. Compounds That Promote Seed Germination. (JCE Featured Molecules) Coleman, W. F. March, 488. Menthol Stereoisomers. (JCE Featured Molecules) Coleman, W. F. July, 1048. Moth Repellent Chemicals. (JCE Featured Molecules) Coleman, W. F. September, 1324. Nicotine Smoke Chemistry. (JCE Featured Molecules) Coleman, W. F. October, 1583. Organic Xenobiotics. (JCE Featured Molecules) Coleman, W. F. February, 264. Photosystem II Oxygen-Evolving Complex. (JCE Featured Molecules) Coleman, W. F. May, 800. Shikimic Acid. (JCE Featured Molecules) Coleman, W. F. April, 656. Weekly Molecules: A Cure for the 8:30 a.m. Blues. (JCE Featured Molecules) Coleman, W. F. June, 850.

Kinetics Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) Alibrandi, G.; D’Aliberti, S.; Coppolino, S.; Villari, A.; Micali, N. March, 442– 444. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Correction to “Promoting Graphical Thinking: Using Temperature and a Graphing Calculator To Teach Kinetics Concepts” (re J. Chem. Educ. 2004, 81, 69– 71). (Correction) Cortés-Figueroa, J. E.; MooreRusso, D. A. August, 1151. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. June, 924–925. Demonstrating Energy Migration in Coupled Oscillators: A Central Concept in the Theory of Unimolecular Reactions. (TD) Marcotte, R. E. October, 1530–1531. Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. Heinson, C. D.; Williams, J. M.; Tinnerman, W. N.; Malloy, T. B. May, 787–789. Does a Photochemical Reaction Have a Kinetic Order? (re J. Chem. Educ. 2003, 80, 1074–1077). (Letter) Toby, S. January, 37. Does a Photochemical Reaction Have a Kinetic Order?— Author Reply (re J. Chem. Educ. 2003, 80, 1074– 1077). (Letter) Hippler, M. January, 37. Electrochemistry at Nanometer-Scaled Electrodes. Watkins, J. J.; Zhang, B.; White, H. S. May, 712– 719. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) Kwan, E. E. July, 1026–1030. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. First-Order or Second-Order Kinetics? A Monte Carlo Answer. Tellinghuisen, J. November, 1709–1714.

JCE SymMath: Symbolic Mathematics in Chemistry Circular Birefringence and Circular Dichroism Simulation. (JCE SymMath) Brown, Z.; Starkey, R. July, 1100. Computing Liquid–Vapor Phase Diagrams for Non-Ideal Binary Mixtures. (JCE SymMath) Chen, F. M. July, 1100. Data Analysis (Damped Oscillations) Using the Genfit Function. (JCE SymMath) Poshusta, R. D. July, 1101. Exploring the Uncertainty Principle. (JCE SymMath) Chen, F. M. July, 1101. An Introduction to Statistical Mechanics. (JCE SymMath) Francl, M. M. January, 175. Learning Molecular Geometry and Symmetry through Quantum Computations and Mathcad Exercises. (JCE SymMath) Chen, F. M. January, 174. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100. SymMath, Fair Use, and Additions to the Collection. (JCE SymMath) Zielinski, T. J. January, 172–174. Using a Computer To Help Understand How Symmetry Principles Reduce Calculations. (JCE SymMath) Kijewski, L. January, 174.

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ber, 1823–1825. Taking Issue with “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Stephens, C. E. July, 998. Taking Issue with “Chemistry Is Not a Laboratory Science”—Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 998–999. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. Antler, M.; Salin, E.; Wilczek-Vera, G. March, 425–427. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. Salter, G.; Range, K.; Salter, C. February, 297–298.

Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. Growth Kinetics and Modeling of ZnO Nanoparticles. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. May, 775–778. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. Hydrolysis of Pentaamminechlorocobalt(III): A Unified Mechanistic View. González-Ferrer, G.; Martínez López, M. November, 1671–1673. An Interactive Classroom Activity Demonstrating Reaction Mechanisms and Rate-Determining Steps. (AA) Jennings, L. D.; Keller, S. W. April, 549–550. An Introduction to Chemical Kinetics (by Margaret Robson Wright). (BMR) Elrod, M. J. January, 40–41. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? de Levie, R. June, 885–888. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. Measuring Gas-Phase Basicities of Amino Acids Using an Ion Trap Mass Spectrometer. A Physical Chemistry Laboratory Experiment. Sunderlin, L. S.; Ryzhov, V.; Keller, L. M.; Gaillard, E. R. July, 1071–1073. A Modified Demonstration of the Catalytic Decomposition of Hydrogen Peroxide. (TD) Trujillo, C. A. June, 855. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. Ahn, H.; Whitten, J. E. June, 909–911. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. Romero, A.; Hernández, G.; Suárez, M. F. August, 1234–1236. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. March, 466–467. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. Rotational Mobility in a Crystal Studied by Dielectric Relaxation Spectroscopy. An Experiment for the Physical Chemistry Laboratory. Dionísio, M.; Diogo, H. P.; Farinha, J. P.; Moura-Ramos, J. J. September, 1355–1360. Simple and Inexpensive Computer Interface to a Durrum Stopped-Flow Apparatus Tested Using the Iron(III)– Thiocyanate Reaction. (CBB) Hoag, C. M. December, 1823–1825. Steel Wool and Oxygen: A Look at Kinetics. Gordon, J. S.; Chancey, K. July, 1065–1067. What Is a Reaction Rate? Schmitz, G. July, 1091–1093.

Laboratory Equipment / Apparatus Addendum to “Laser-Pointer-Based Spectrometer for Endpoint Detection of EDTA Titrations”. (Letter) Dahm, C. E. May, 683. Analog Spectrophotometers in the Digital Age: Data Acquisition on a Budget. (CET) Nazarenko, A. Y.; Nazarenko, N. A. February, 294–296. Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) Alibrandi, G.; D’Aliberti, S.; Coppolino, S.; Villari, A.; Micali, N. March, 442– 444. Balloon–Toy of Many Colors. (FPI) Williams, K. R. October, 1448–1449. Correction to “Heat and Temperature Conductivity of Baths” (re J. Chem. Educ. 2005, 82, 380–381). (Correction) Lunelli, B. June, 839. Heat and Temperature Conductivity of Baths (re J. Chem. Educ. 2002, 79, 1109). (Letter) Lunelli, B. March, 380–381. Heat and Temperature Conductivity of Baths—Author Reply (re J. Chem. Educ. 2002, 79, 1109). (Letter) Joling, E. March, 381. Improved Preparation of 2,4-Dinitrophenylhydrazine Reagent. (Letter) Ruekberg, B.; Rossoni, E. September, 1310. Instrumental Proficiency Program for Undergraduates. Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. June, 898– 900. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. Investigating the Photoelectric Effect Using LEDs and a Modular Spectroscope. Diaz, L.; Smith, C. A. June, 906–908. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. A LED Microtiter Plate Reader. Gordon, J. S.; Tye, S. June, 903–905. A Low-Cost Experiment on Newtonian and NonNewtonian Fluids. Dolz, M.; Delegido, J.; Casanovas, A.; Hernández, M. March, 445–447. Low-Cost Thermocouple Signal-Conditioning Module. (CET) Lenzi, M. K.; Silva, F. M.; Lima, E. L.; Pinto, J. C.; Cunningham, M. F. January, 122–123. The Match Game: A Discovery of the Laboratory Equipment Used in General Chemistry. (VIEW) Greengold, S. L. April, 547–548. Mercury Thermometer Replacements in Chemistry Laboratories. Foster, B. L. February, 269–270. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. Ahn, H.; Whitten, J. E. June, 909–911. The Origin of the Bunsen Burner. (ASK) Jensen, W. B. April, 518. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Safe Preparation of HCl and DCl for IR Spectroscopy. (ST) Furlong, W. R.; Grubbs, W. T. January, 124. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. January, 93–95. A Sensitive Nitrate Ion-Selective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) Bendikov, T. A.; Harmon, T. C. March, 439–441. A Simple Low-Cost Lock-In Amplifier for the Laboratory. (TICI) Sengupta, S. K.; Farnham, J. M.; Whitten, J. E. September, 1399–1401.

Laboratory Computing / Interfacing Analog Spectrophotometers in the Digital Age: Data Acquisition on a Budget. (CET) Nazarenko, A. Y.; Nazarenko, N. A. February, 294–296. The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. The Physics Teacher: Black Boxes, Frozen Lakes, and What = mc 2. (ROJPhysTea) Clark, R. W. November, 1611– 1612. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Reaction to “Chemistry Is Not a Laboratory Science”— Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 997–998. Response to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Morton, S. D. July, 997. Sequential-Injection Analysis: Principles, Instrument Construction, and Demonstration by a Simple Experiment. (TICI) Economou, A.; Tzanavaras, P. D.; Themelis, D. G. December, 1820–1822. Simple and Inexpensive Computer Interface to a Durrum Stopped-Flow Apparatus Tested Using the Iron(III)– Thiocyanate Reaction. (CBB) Hoag, C. M. Decem-

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A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. February, 282–285. A Small-Scale Low-Cost Gas Chromatograph. (CET) Gros, N.; Vrtacˇnik, M. February, 291–293. Some Insights Regarding a Popular Introductory Gas Law Experiment. DePierro, E.; Garafalo, F. August, 1194–1196. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. May, 782–786. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. Salter, G.; Range, K.; Salter, C. February, 297–298. Weighing Paper Substitute. (CET) Ruekberg, B. April, 620. Writing-Intensive Multimedia Projects in the Instrumental Methods Course. Van Ryswyk, H. January, 70–72.

Laboratory Instruction Acid-Catalyzed Isomerization of Carvone to Carvacrol. Kjonaas, R. A.; Mattingly, S. P. December, 1813– 1814. Addendum to “Laser-Pointer-Based Spectrometer for Endpoint Detection of EDTA Titrations”. (Letter) Dahm, C. E. May, 683. The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051–1052. Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. ColladoSánchez, C.; Hernández-Brito, J. J.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. February, 271–273. Analysis of Natural Buffer Systems and the Impact of Acid Rain. An Environmental Project for First-Year Chemistry Students. Powers, D. C.; Higgs, A. T.; Obley, M. L.; Leber, P. A.; Hess, K. R.; Yoder, C. H. February, 274–277. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. Bracken, J. D.; Tietz, D. May, 762–764. Analysis of Phosphoric Acid Content in Popular Carbonated Drinks (re J. Chem. Educ. 1996, 73, 1173–1174). (Letter) Rodgers, J.; Koether, M. C. October, 1471. Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) Ship, N. J.; Zamble, D. B. December, 1805–1808. Applying Chemical Potential and Partial Pressure Concepts To Understand the Spontaneous Mixing of Helium and Air in a Helium-Inflated Balloon. Lee, J.; Yoo, H.; Park, J. S.; Hwang, K.; Kim, J. S. February, 288–290. An Approach Towards Teaching Green Chemistry Fundamentals. (GRN) Van Arnum, S. D. November, 1689–1692. Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Young, J. A. December, 1775. An Azulene-Based Discovery Experiment: Challenging Students To Watch for the “False Assumption”. Garner, C. M. November, 1686–1688. Balloon–Toy of Many Colors. (FPI) Williams, K. R. October, 1448–1449. Bond Length Dependence on Quantum States as Shown by Spectroscopy. Lim, K. F. January, 145–149. Brewing Science in the Chemistry Laboratory: A “Mashing” Investigation of Starch and Carbohydrates. Pelter, M. W.; McQuade, J. December, 1811–1812. Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. Mills, N. S.; Spence, J. D.; Bushey, M. M. August, 1226–1228. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Chemistry and Luminescence (re J. Chem. Educ. 2005, 82, 49). (Letter) Cintas, P. June, 837. Chemistry and Luminescence—Author Reply (re J. Chem. Educ. 2005, 82, 49). (Letter) O’Hara, P. B. June, 837. Chiral Crystallization of Ethylenediamine Sulfate. Koby, L.; Ningappa, J. B.; Dakessian, M.; Cuccia, L. A. July, 1043–1045. Circular Birefringence and Circular Dichroism Simulation. (JCE SymMath) Brown, Z.; Starkey, R. July, 1100.


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Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. Reed, N. A.; Rapp, R. D.; Hamann, C. S.; Artz, P. G. July, 1053–1054. A Closer Look at Acid–Base Olfactory Titrations. Neppel, K.; Oliver-Hoyo, M. T.; Queen, C.; Reed, N. April, 607–610. Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. Cerrada, E.; Laguna, M. April, 630–633. Comparative Methylation of 1,8-Dihydroxy-9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. Sereda, G. December, 1839–1840. A Convenient Method for Dispensing Organometallic Reagents. (CET) Newton, T. A. June, 936. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230. Correction to “Heat and Temperature Conductivity of Baths” (re J. Chem. Educ. 2005, 82, 380–381). (Correction) Lunelli, B. June, 839. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Crystallographic Study of Manganese(III) Acetylacetonate: An Advanced Undergraduate Project with Unexpected Challenges. Geremia, S.; Demitri, N. March, 460–465. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Data Analysis (Damped Oscillations) Using the Genfit Function. (JCE SymMath) Poshusta, R. D. July, 1101. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. June, 924–925. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. December, 1815–1819. The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. Heinson, C. D.; Williams, J. M.; Tinnerman, W. N.; Malloy, T. B. May, 787–789. Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. Seney, C. S.; Sinclair, K. V.; Bright, R. M.; Momoh, P. O.; Bozeman, A. D. December, 1826–1829. Diels–Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. April, 625–629. Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. Baar, M. R.; Wustholz, K. L. September, 1393–1394. The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. Dynamic and Equilibrium Adsorption Experiments. Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Da Silva, F. A.; Silva, C. M. June, 919–923. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. Baar, M. R.; Cerrone-Szakal, A. L. July, 1040–1042. An Engaging Illustration of the Physical Differences among Menthol Stereoisomers. Treadwell, E. M.; Black, T. H. July, 1046–1048. Enthalpy of Vaporization by Gas Chromatography: A Physical Chemistry Experiment. Ellison, H. R. July, 1086–1088. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. FríasFerrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. September, 1395–1398.

Environmental Laboratory Exercises for Instrumental Analysis and Environmental Chemistry (by Frank M. Dunnivant). (BMR) De Jesús, M. A. March, 382. Equilibrium Gel Filtration Chromatography for the Measurement of Protein–Ligand Binding in the Undergraduate Biochemistry Laboratory. Craig, D. B. January, 96–98. The Ethylene Ketal Protecting Group Revisited: The Synthesis of 4-Hydroxy-4,4-diphenyl-2-butanone. Baar, M. R.; Russell, C. E.; Wustholz, K. L. July, 1057–1058. The Evolution of a Green Chemistry Laboratory Experiment: Greener Brominations of Stilbene. (GRN) McKenzie, L. C.; Huffman, L. M.; Hutchison, J. E. February, 306–310. An Experimental Introduction to Interlaboratory Exercises in Analytical Chemistry. Puignou, L.; Llauradó, M. July, 1079–1081. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. First-Order or Second-Order Kinetics? A Monte Carlo Answer. Tellinghuisen, J. November, 1709–1714. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. Formation of α-Tetralone by Intramolecular Friedel– Crafts Acylation. (ML) Holden, M. S.; Crouch, R. D.; Barker, K. H. June, 934–935. FTIR Determination of Pollutants in Automobile Exhaust: An Environmental Chemistry Experiment Comparing Cold-Start and Warm-Engine Conditions. Medhurst, L. J. February, 278–281. Fundamentals of Biomolecule Analysis by Electrospray Ionization Mass Spectrometry. An Instrumental Analysis Laboratory Experiment. Weinecke, A.; Ryzhov, V. January, 99–102. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. Clennan, M. M.; Clennan, E. L. November, 1676–1678. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. Global Least-Squares Analysis of the IR Rotation–Vibration Spectrum of HCl. Tellinghuisen, J. January, 150–156. Going Green: Lecture Assignments and Lab Experiences for the College Curriculum. (ACS) Haack, J. A.; Hutchison, J. E.; Kirchhoff, M. M.; Levy, I. J. July, 974–976. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave, G. W.; Raston, C. L. March, 468–469. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. A Greener Approach for Measuring Colligative Properties. (GRN) McCarthy, S. M.; Gordon-Wylie, S. W. January, 116–119. Growth Kinetics and Modeling of ZnO Nanoparticles. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. May, 775–778. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. Heat and Temperature Conductivity of Baths (re J. Chem. Educ. 2002, 79, 1109). (Letter) Lunelli, B. March, 380–381. Heat and Temperature Conductivity of Baths—Author Reply (re J. Chem. Educ. 2002, 79, 1109). (Letter) Joling, E. March, 381. Hydrolysis of Pentaamminechlorocobalt(III): A Unified Mechanistic View. González-Ferrer, G.; Martínez López, M. November, 1671–1673. I Screen, You Screen, We All Screen for Phenolics. (JCE Classroom Activity) Sady, M. B. December, 1808A– 1808B. Improved Preparation of 2,4-Dinitrophenylhydrazine Reagent. (Letter) Ruekberg, B.; Rossoni, E. September, 1310.

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The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 453–455. Interlaboratory Collaborations in the Undergraduate Setting. Megehee, E. G.; Hyslop, A. G.; Rosso, R. J. September, 1345–1348. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. An Introduction to Statistical Mechanics. (JCE SymMath) Francl, M. M. January, 175. Investigating the Photoelectric Effect Using LEDs and a Modular Spectroscope. Diaz, L.; Smith, C. A. June, 906–908. Isolation of Shikimic Acid from Star Aniseed. Payne, R.; Edmonds, M. K. April, 599–600. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. Keeping Chemistry and Chemists Safe. (Editorial) Moore, J. W. July, 967. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. A LED Microtiter Plate Reader. Gordon, J. S.; Tye, S. June, 903–905. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. Barreto, M. C. January, 103–104. A Low-Cost Experiment on Newtonian and NonNewtonian Fluids. Dolz, M.; Delegido, J.; Casanovas, A.; Hernández, M. March, 445–447. M&M Orange (re J. Chem. Educ. 2002, 79, 847). (Letter) Elder, J. W. February, 209. M&M Orange—Author Reply (re J. Chem. Educ. 2002, 79, 847). (Letter) Birdwhistell, K. R.; Spence, T. G. February, 209. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. Paddock, J. R.; Maghasi, A. T.; Heineman, W. R.; Seliskar, C. J. September, 1370–1371. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. DeMeo, S. August, 1219– 1222. The Match Game: A Discovery of the Laboratory Equipment Used in General Chemistry. (VIEW) Greengold, S. L. April, 547–548. Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392. Measuring Gas-Phase Basicities of Amino Acids Using an Ion Trap Mass Spectrometer. A Physical Chemistry Laboratory Experiment. Sunderlin, L. S.; Ryzhov, V.; Keller, L. M.; Gaillard, E. R. July, 1071–1073. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) White, L. L.; Kittredge, K. W. July, 1055– 1056.

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Kalivas, J. H. June, 895–897. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. March, 466–467. Reduction of Ilmenite with Charcoal. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 456–459. Response to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Morton, S. D. July, 997. Rotational Mobility in a Crystal Studied by Dielectric Relaxation Spectroscopy. An Experiment for the Physical Chemistry Laboratory. Dionísio, M.; Diogo, H. P.; Farinha, J. P.; Moura-Ramos, J. J. September, 1355–1360. Rotor-shaped Cyclopentadienyltetraphenylcyclobutadienecobalt. An Advanced Inorganic Experiment. MacFarland, D. K.; Gorodetzer, R. January, 109–110. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. November, 1697–1699. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. January, 93–95. Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. Todebush, P. M.; Geiger, F. M. October, 1542–1545. Self-Assembled Colloidal Crystals: Visualizing Atomic Crystal Chemistry Using Microscopic Analogues of Inorganic Solids. Abrams, N. M.; Schaak, R. E. March, 450–452. A Sensitive Nitrate Ion-Selective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) Bendikov, T. A.; Harmon, T. C. March, 439–441. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. Bazzi, A.; Kreuz, B.; Wuokila, J.; Maqboul, A. March, 435–438. Sequential-Injection Analysis: Principles, Instrument Construction, and Demonstration by a Simple Experiment. (TICI) Economou, A.; Tzanavaras, P. D.; Themelis, D. G. December, 1820–1822. The Sharpless Asymmetric Dihydroxylation in the Organic Chemistry Majors Laboratory. Nichols, C. J.; Taylor, M. R. January, 105–108. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. Simple and Inexpensive Computer Interface to a Durrum Stopped-Flow Apparatus Tested Using the Iron(III)– Thiocyanate Reaction. (CBB) Hoag, C. M. December, 1823–1825. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. Warnke, M. M.; Erickson, A. E.; Smith, E. T. July, 1082–1085. A Small-Scale Low-Cost Gas Chromatograph. (CET) Gros, N.; Vrtacˇnik, M. February, 291–293. A Solvent-Free Baeyer–Villiger Lactonization for the Undergraduate Organic Laboratory: Synthesis of γ-t-Butyl- ε -caprolactone. Esteb, J. J.; Hohman, J. N.; Schlamadinger, D. E.; Wilson, A. M. December, 1837–1838. Some Insights Regarding a Popular Introductory Gas Law Experiment. DePierro, E.; Garafalo, F. August, 1194–1196. Spectacular Breeding of Crystals on Silica Gel. Piekos, R.; Teodorczyk, J. March, 448–449. Spectrophotometric Determination of the Dissociation Constant of an Acid–Base Indicator Using a Mathematical Deconvolution Technique. Alter, K. P.; Molloy, J. L.; Niemeyer, E. D. November, 1682–1685. Spectrophotometric Determination of the Hole Concentration in the Superconductor YBa2Cu3O7᎑x: An Undergraduate Experiment. Hoppé, J. I.; Malati, M. A. February, 299–301. Steel Wool and Oxygen: A Look at Kinetics. Gordon, J. S.; Chancey, K. July, 1065–1067. Structure and Bonding in Group 14 Congeners of Ethene: DFT Calculations in the Inorganic Chemistry Laboratory. (MMEE) Streit, B. R.; Geiger, D. K. January, 111–115. Student Opinions Regarding Inquiry-Based Labs. (VIEW) Deters, K. M. August, 1178–1180.

Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. Ahn, H.; Whitten, J. E. June, 909–911. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B. A Collaborative Experiment for Advanced Undergraduates. Rebolledo, F.; Liz, R. June, 930–933. Nanopatterning with Lithography. (JCE Classroom Activity) Haynes, C. L.; McFarland, A. D.; Van Duyne, R. P.; Godwin, H. A. May, 768A–768B. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. Galembeck, S. E.; Caramori, G. F.; Romero, J. R. December, 1800–1804. NMR Analysis of Unknowns: An Introduction to 2D NMR Spectroscopy. Alonso, D. E.; Warren, S. E. September, 1385–1386. On-Site Reviews and Institutes To Assess and Strengthen Undergraduate Departments and Programs. (CUR) Karukstis, K. K.; Rowlett, R. April, 512–513. Organic Spectroscopy Laboratory: Utilizing IR and NMR in the Identification of an Unknown Substance. Glagovich, N. M.; Shine, T. D. September, 1382– 1384. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. Romero, A.; Hernández, G.; Suárez, M. F. August, 1234–1236. Plastic Antibodies: Molecular Recognition with Imprinted Polymers. An Introductory Polymer Chemistry Laboratory Investigation. Rushton, G. T.; Furmanski, B. D.; Shimizu, K. D. September, 1374– 1377. Preparation of Dppe-Stabilized Gold Nanoparticles. Dungey, K. E.; Muller, D. P.; Gunter, T. May, 769– 770. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667– 1670. Presumptive and Confirmatory Drug Tests. Anderson, C. December, 1809–1810. Qualitative Organic Analysis—In the Classroom and Laboratory. Finley, K. T. February, 240. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. June, 912–915. A Quantitative Examination of Multiple Methods for Standardizing a Dilute Hydrochloric Acid Solution in an Undergraduate Chemistry Laboratory. Meagher, N. E.; Bowens, D. B.; Clark, B. S. March, 428–434. Quantum Dots: An Experiment for Physical or Materials Chemistry. Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. November, 1700–1702. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E.; Smith, C. J. February, 265–268. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Reaction to “Chemistry Is Not a Laboratory Science”— Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 997–998. Realizing Workplace Skills in Instrumental Analysis.

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A Substitute for “Bromine in Carbon Tetrachloride". Daley, J. M.; Landolt, R. G. January, 120–121. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. Williams, G. L.; Vohs, J. K.; Brege, J. J.; Fahlman, B. D. May, 771– 774. Surface pKa of Self-Assembled Monolayers. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. May, 779– 781. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100. Synthesis and Analysis of Copper Hydroxy Double Salts. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. November, 1662. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. Getzler, Y. D.; Schmidt, J. A.; Coates, G. W. April, 621–624. Synthesis of Meso-Octamethylporphyrinogen: An Undergraduate Laboratory Mini-Scale Experiment in Organic Heterocyclic Chemistry. (ML) Sobral, A. J. April, 618–620. Taking Issue with “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Stephens, C. E. July, 998. Taking Issue with “Chemistry Is Not a Laboratory Science”—Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 998–999. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. Antler, M.; Salin, E.; Wilczek-Vera, G. March, 425–427. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. May, 782–786. Techniques To Enhance Instructors’ Teaching Effectiveness with Chemistry Students Who Are Blind or Visually Impaired. Supalo, C. October, 1513–1518. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. May, 765–768. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598. Testing for Ultraviolet Toxicity Using Fungi. Vital, M.; Esperón, P. June, 926–929. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379. Thermal Expansion: Using Calculator-Based Laboratory Technology To Observe the Anomalous Behavior of Water. Branca, M.; Soletta, I. April, 613–615. Turning on the Light: Lessons from Luminescence. O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 49–52. Turning on the Light. (JCE Classroom Activity) O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 48A–48B. Understanding Least Squares through Monte Carlo Calculations. Tellinghuisen, J. January, 157–166. Use of Enzymes in Organic Synthesis: Reduction of Ketones by Baker’s Yeast Revisited. Patterson, J.; Sigurdsson, S. T. July, 1049–1050. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554. Variable Effects during Polymerization. Lunsford, S. K. December, 1830–1832. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. Salter, G.; Range, K.; Salter, C. February, 297–298. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918.


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Subject Index • Volume 82 • 2005 Weighing Paper Substitute. (CET) Ruekberg, B. April, 620. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) Harris, H. H. April, 530–531.

Laboratory Management Ammonium Chloride. (CLIP) Young, J. A. November, 1618. Ammonium Dichromate. (CLIP) Young, J. A. November, 1617. Ammonium Thiocyanate. (CLIP) Young, J. A. November, 1619. Benzaldehyde. (CLIP) Young, J. A. December, 1770. Benzene. (CLIP) Young, J. A. December, 1769. Benzidine. (CLIP) Young, J. A. December, 1768. Cadmium. (CLIP) Young, J. A. April, 521. Catechol. (CLIP) Young, J. A. January, 31. Copper(I) Chloride. (CLIP) Young, J. A. July, 991. Copper(II) Acetate Monohydrate. (CLIP) Young, J. A. July, 990. Copper(II) Nitrate Trihydrate. (CLIP) Young, J. A. March, 375. Hydrogen Sulfide. (CLIP) Young, J. A. February, 202. Improved Preparation of 2,4-Dinitrophenylhydrazine Reagent. (Letter) Ruekberg, B.; Rossoni, E. September, 1310. Instrumental Proficiency Program for Undergraduates. Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. June, 898– 900. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) Herman, C.; Casiday, R. E.; Deppe, R. K.; Gilbertson, M.; Spees, W. M.; Holten, D.; Frey, R. F. December, 1871–1879. Is It Necessary To Dry Primary Standards before Analysis? Spraggins, J. M., II.; Williams, T. R. February, 311–312. JCE Chemical Laboratory Information Profiles (CLIPs) on CD-ROM. Abstract of JCE CLIPs 2005. (JCE Software) Holmes, J. L. November, 1744. Lithium. (CLIP) Young, J. A. April, 520. Luminol (3-Aminophthalhydrazide). (CLIP) Young, J. A. October, 1465. Magnesium Oxide. (CLIP) Young, J. A. May, 677. Magnesium Sulfate. (CLIP) Young, J. A. May, 678. Mercury. (CLIP) Young, J. A. February, 203. Nickel(II) Carbonate. (CLIP) Young, J. A. June, 830. Nickel(II) Oxide. (CLIP) Young, J. A. June, 831. Poly(Vinyl Alcohol). (CLIP) Young, J. A. October, 1466. Potassium Hydroxide. (CLIP) Young, J. A. September, 1304. Potassium Nitrate. (CLIP) Young, J. A. September, 1305. Sodium Borate Hydrogen Peroxidate Trihydrate. (CLIP) Young, J. A. January, 30. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522. Zinc (dust and bulk). (CLIP) Young, J. A. August, 1143. Zinc Nitrate Hexahydrate. (CLIP) Young, J. A. August, 1144.

Lasers Addendum to “Laser-Pointer-Based Spectrometer for Endpoint Detection of EDTA Titrations”. (Letter) Dahm, C. E. May, 683. Does a Photochemical Reaction Have a Kinetic Order? (re J. Chem. Educ. 2003, 80, 1074–1077). (Letter) Toby, S. January, 37. Does a Photochemical Reaction Have a Kinetic Order?— Author Reply (re J. Chem. Educ. 2003, 80, 1074– 1077). (Letter) Hippler, M. January, 37. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. Ahn, H.; Whitten, J. E. June, 909–911.


Learning Theories Attitudinal Effects of a Student-Centered Active Learning Environment. (CER) Oliver-Hoyo, M. T.; Allen, D. June, 944–949. Chem-2-Chem: A One-to-One Supportive Learning Environment for Chemistry. (CER) Báez-Galib, R.; Colón-Cruz, H.; Resto, W.; Rubin, M. R. December, 1859–1863. Chemistry as General Education (re J. Chem. Educ. 2004, 81, 54–57). (Letter) Silverstein, T. P. June, 838. Chemistry Teachers’ Estimations of Their Students’ Learning Achievement. (CER) Lin, H.; Lee, S. T.; Treagust, D. F. October, 1565–1569. Cross-Proportions: A Conceptual Method for Developing Quantitative Problem-Solving Skills. Cook, E.; Cook, R. L. August, 1187–1189. Departing from Lectures: An Evaluation of a Peer-Led Guided Inquiry Alternative. (CER) Lewis, S. E.; Lewis, J. E. January, 135–139. The Effects of Thinking Aloud Pair Problem Solving on High School Students’ Chemistry Problem-Solving Performance and Verbal Interaction. (CER) Jeon, K.; Huffman, D.; Noh, T. October, 1558–1564. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) Wally, L. M.; Levinger, N. E.; Grainger, D. W. October, 1489–1495. Experiences and Reflections about Teaching Atomic Structure in a Jigsaw Classroom in Lower Secondary School Chemistry Lessons. (CER) Eilks, I. February, 313–319. Imagination. (Editorial) Moore, J. W. May, 663. “It Gets Me to the Product”: How Students Propose Organic Mechanisms. (CER) Bhattacharyya, G.; Bodner, G. M. September, 1402–1407. Learner-Centered Education. (EHST) Mason, D. S. August, 1113. Learning To Search in Ten Easy Steps: A Review of a Chemical Information Course. (CII) Currano, J. N. March, 484–488. “Old” Technology Is Still Useful. (Letter) Lagowski, J. J. March, 381. Performance-Related Feedback: The Hallmark of Efficient Instruction. Brooks, D. W.; Schraw, G.; Crippen, K. J. April, 641–644. The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems. (2AP) Matsumoto, P. S. March, 406–407. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Reactions to “The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems” —Author Reply (J. Chem. Educ. 2005, 82, 406–407). (Letter) Matsumoto, P. S. August, 1150. The Science Teacher: Fall 2005. (ROJSciTea) Long, S. November, 1609. The Science Teacher: Spring 2005. (ROJSciTea) Long, S. April, 514–515. Service-Learning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. Esson, J. M.; Stevens-Truss, R.; Thomas, A. August, 1168–1173. Student Opinions Regarding Inquiry-Based Labs. (VIEW) Deters, K. M. August, 1178–1180. Teaching Biochemistry at a Minority-Serving Institution: An Evaluation of the Role of Collaborative Learning as a Tool for Science Mastery. Peters, A. W. April, 571– 574. Techniques To Enhance Instructors’ Teaching Effectiveness with Chemistry Students Who Are Blind or Visually Impaired. Supalo, C. October, 1513–1518. Telling the Stories of Chemistry. Kitson, T. M. October, 1504. Using an Interactive, Compensatory Model of Learning To Improve Chemistry Teaching. Schraw, G.; Brooks, D. W.; Crippen, K. J. April, 637–640.

Letters

Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612.

Addendum to “Laser-Pointer-Based Spectrometer for Endpoint Detection of EDTA Titrations”. (Letter) Dahm, C. E. May, 683. Analysis of Phosphoric Acid Content in Popular Carbonated Drinks (re J. Chem. Educ. 1996, 73, 1173–1174). (Letter) Rodgers, J.; Koether, M. C. October, 1471. Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Young, J. A. December, 1775.

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Authors: Know the Hazards, Please!—Author Reply (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. December, 1775. Chemistry and Luminescence (re J. Chem. Educ. 2005, 82, 49). (Letter) Cintas, P. June, 837. Chemistry and Luminescence—Author Reply (re J. Chem. Educ. 2005, 82, 49). (Letter) O’Hara, P. B. June, 837. Chemistry as General Education (re J. Chem. Educ. 2004, 81, 54–57). (Letter) Silverstein, T. P. June, 838. Chemistry in the City: An Amendment (re J. Chem. Educ. 2003, 80, 850–856). (Letter) Fine, L. W. January, 38. Chinese Students’ Opinions about “What is the Biggest Problem in Chemistry?”. (Letter) Mingjie, Z.; Qichao, Y. February, 210. Comments on Purser’s Article: “Lewis Structures are Models for Predicting Molecular Structure, Not Electronic Structure” (re J. Chem. Educ. 1999, 76, 1013– 1018). (Letter) Weinhold, F. A. April, 527–528. Concerning “A Reaction That Takes Place in Beakers but Not in Conical Flasks: A Catalysis-Related Demonstration” (re J. Chem. Educ. 2004, 81, 364). (Letter) Espenson, J. H. April, 527. Does a Photochemical Reaction Have a Kinetic Order? (re J. Chem. Educ. 2003, 80, 1074–1077). (Letter) Toby, S. January, 37. Does a Photochemical Reaction Have a Kinetic Order?— Author Reply (re J. Chem. Educ. 2003, 80, 1074– 1077). (Letter) Hippler, M. January, 37. Early Spectroscopy and the Balmer Lines of Hydrogen (re J. Chem. Educ. 2003, 80, 1003). (Letter) Wagner, H. J. March, 380. Early Spectroscopy and the Balmer Lines of Hydrogen— Author Reply (re J. Chem. Educ. 2003, 80, 1003). (Letter) Retcofsky, H. L. March, 380. Editor’s Note about “The Kilogram and the Mole Redux”. (Letter) Moore, J. W. February, 212. Equilibrium Constants and Water Activity. (Letter) Keeports, D. July, 999. Gas Permeability of Polymers (re J. Chem. Educ. 2005, 82, 288). (Letter) Lunelli, B. October, 1471–1472. Gas Permeability of Polymers—Author Reply (re J. Chem. Educ. 2005, 82, 288). (Letter) Lee, J. October, 1472. Greenhouse Gases and Non-gray Behavior. (Letter) Jones, J. C. June, 837. Hands On Plastics (re J. Chem. Educ. 2004, 81, 1309, 1312A). (Letter) Harris, H. H.; Harris, M. E. February, 209. Heat and Temperature Conductivity of Baths (re J. Chem. Educ. 2002, 79, 1109). (Letter) Lunelli, B. March, 380–381. Heat and Temperature Conductivity of Baths—Author Reply (re J. Chem. Educ. 2002, 79, 1109). (Letter) Joling, E. March, 381. Improved Preparation of 2,4-Dinitrophenylhydrazine Reagent. (Letter) Ruekberg, B.; Rossoni, E. September, 1310. The Inquiry Wheel, an Alternative to the Scientific Method (re J. Chem. Educ. 2004, 81, 791–792. (Letter) Wink, D. J. May, 682. The Inquiry Wheel, an Alternative to the Scientific Method—Author Reply (re J. Chem. Educ. 2004, 81, 791–792. (Letter) Harwood, W. S. May, 682. Kilogram and the Mole Redux. (Letter) Karol, P. J. February, 212. M&M Orange (re J. Chem. Educ. 2002, 79, 847). (Letter) Elder, J. W. February, 209. M&M Orange—Author Reply (re J. Chem. Educ. 2002, 79, 847). (Letter) Birdwhistell, K. R.; Spence, T. G. February, 209. More on Element 43. (Letter) Kauffman, G. B. September, 1310. Music and Chemistry (re J. Chem. Educ. 2004, 81, 507– 508). (Letter) Behrman, E. J. January, 37. No Problems with Q. (Letter) Lederer, R. August, 1149. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Soltzberg, L. J.; Brown, V. April, 526. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate—Author Reply (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Herrera-Melián, J. A.; Araña Mesa, J. April, 526. “Old” Technology Is Still Useful. (Letter) Lagowski, J. J. March, 381. Online Sources of Organic Data. (Letter) Myers, B. J. November, 1623.


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www.JCE.DivChed.org/Journal/Search/ Properties of the Lanthanide Metals: Correlations and Discontinuities (re J. Chem. Educ. 2005, 82, 473– 483). (Letter) Laing, M. November, 1623. The Reaction Quotient (Q) IS Useful After All (re J. Chem. Educ. 2005, 82, 406–407. (Letter) Silverstein, T. P. August, 1149. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Reaction to “Chemistry Is Not a Laboratory Science”— Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 997–998. Reaction to “Something Might Be Gaining on Us” (re J. Chem. Educ. 2004, 81, 1079). (Letter) Dybowski, C. R. February, 210–211. Reaction to “The Concept of Ionic Strength Eighty Years after Its Introduction in Chemistry” (re J. Chem. Educ. 2004, 81, 750–753). (Letter) Glasser, L. February, 212. Reactions to “The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems” —Author Reply (J. Chem. Educ. 2005, 82, 406–407). (Letter) Matsumoto, P. S. August, 1150. Regarding Entropy Analysis (re J. Chem. Educ. 2004, 81, 1585–1594). (Letter) Hanson, R. M. June, 839. Regarding Entropy Analysis—Author Reply (re J. Chem. Educ. 2004, 81, 1585–1594). (Letter) Bindel, T. H. June, 839. Response to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Morton, S. D. July, 997. Robust Linear Regression Using Theil’s Method. (Letter) Glaister, P. October, 1472–1473. Some Footnotes on the History of Masurium. (Letter) Wagner, H. J. September, 1309. Systemic Approach to Teaching and Learning. (Letter) Lagowski, J. J. February, 211. Taking Issue with “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Stephens, C. E. July, 998. Taking Issue with “Chemistry Is Not a Laboratory Science”—Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 998–999. Use Correct Projection. (Letter) Kapoor, V. K. June, 838.

Lithium

Materials Science

Lithium. (CLIP) Young, J. A. April, 520..

Chemistry of Durable and Regenerable Biocidal Textiles. (POC) Sun, G.; Worley, S. D. January, 60–64. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. Nanopatterning with Lithography. (JCE Classroom Activity) Haynes, C. L.; McFarland, A. D.; Van Duyne, R. P.; Godwin, H. A. May, 768A–768B. Nanophysics and Nanotechnology: An Introduction to Modern Concepts in Nanoscience (by Edward L. Wolf ). (BMR) Somer, F. L., Jr. November, 1625– 1626. Nantribology: Rubbing on a Small Scale. Dickinson, J. T. May, 734–742. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Polymer Chemistry: Introduction to an Indispensable Science (by David M. Teegarden). (BMR) Matthews, M. S. February, 213–214. Preparation of Dppe-Stabilized Gold Nanoparticles. Dungey, K. E.; Muller, D. P.; Gunter, T. May, 769– 770. Quantum Dots: An Experiment for Physical or Materials Chemistry. Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. November, 1700–1702. Reduction of Ilmenite with Charcoal. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 456–459. Research Advances: Cars of the Future—Powered by Poison?; Prehistoric Beverage Choices; Health Benefits of Chamomile. (ROJResAdv) King, A. G. April, 506– 510. Research Advances: Dendritic Macromer Replaces Sutures in Cataract Surgery; Promising Polymer Therapy for Paralyzed Dogs; Compound in Smoke Provides the Spark for Germination. (ROJResAdv) King, A. G. March, 346–348. Research Advances: Horseradish, Peroxide Mixture May End War of the Noses; Even Low Levels of Benzene Are Hemotoxic; New “Nuclear Battery” Runs 10 Years, 10 Times More Powerful. (ROJResAdv) King, A. G. November, 1594–1597. Research Advances: Nitric Oxide Synthase Reduces Cr(VI); The Chemistry of Popcorn: It’s All About “Pop-Ability”; Nanotubes May Help Heal Broken Bones; New Method Unites Organic Materials and Nanotechnology. (ROJResAdv) King, A. G. December, 1754–1759. Self-Assembled Colloidal Crystals: Visualizing Atomic Crystal Chemistry Using Microscopic Analogues of Inorganic Solids. Abrams, N. M.; Schaak, R. E. March, 450–452. Spectacular Breeding of Crystals on Silica Gel. Piekos, R.; Teodorczyk, J. March, 448–449. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. Williams, G. L.; Vohs, J. K.; Brege, J. J.; Fahlman, B. D. May, 771– 774. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. May, 765–768. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681.

Magnesium Addendum to “Laser-Pointer-Based Spectrometer for Endpoint Detection of EDTA Titrations”. (Letter) Dahm, C. E. May, 683. Magnesium Oxide. (CLIP) Young, J. A. May, 677. Magnesium Sulfate. (CLIP) Young, J. A. May, 678.

Magnetic Properties Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667– 1670. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. May, 765–768.

Main-Group Elements Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Electronegativity and the Bond Triangle. Meek, T. L.; Garner, L. D. February, 325–333. More Elementary Riddles. Cunningham, K. D. April, 539–540. Predicting the Atomic Weights of the Trans-Lawrencium Elements: A Novel Application of Dobereiner’s Triads. Ibrahim, S. A. November, 1658–1659. Preparation of Dppe-Stabilized Gold Nanoparticles. Dungey, K. E.; Muller, D. P.; Gunter, T. May, 769– 770. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Valence, Covalence, Hypervalence, Oxidation State, and Coordination Number. Smith, D. W. August, 1202– 1204.

Lewis Acids / Bases Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997.

Mass Spectrometry Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. Heinson, C. D.; Williams, J. M.; Tinnerman, W. N.; Malloy, T. B. May, 787–789. Fundamentals of Biomolecule Analysis by Electrospray Ionization Mass Spectrometry. An Instrumental Analysis Laboratory Experiment. Weinecke, A.; Ryzhov, V. January, 99–102. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. Clennan, M. M.; Clennan, E. L. November, 1676–1678. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Introduction to Protein and Peptide Analysis with Mass Spectrometry (by Fred Klink). (BMR) Harvey, D. T. July, 1003–1004. Measuring Gas-Phase Basicities of Amino Acids Using an Ion Trap Mass Spectrometer. A Physical Chemistry Laboratory Experiment. Sunderlin, L. S.; Ryzhov, V.; Keller, L. M.; Gaillard, E. R. July, 1071–1073. Presumptive and Confirmatory Drug Tests. Anderson, C. December, 1809–1810. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379.

Lewis Structures Comments on Purser’s Article: “Lewis Structures are Models for Predicting Molecular Structure, Not Electronic Structure” (re J. Chem. Educ. 1999, 76, 1013– 1018). (Letter) Weinhold, F. A. April, 527–528.

Lipids Correction to “DeLorenzo’s Four Interesting Mysteries Verified” (re J. Chem. Educ. 2002, 79, 1217–1219). (Correction) Ferriols-Pavico, J. M. August, 1151. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. Barreto, M. C. January, 103–104. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537.

Liquids Displacements of Brownian Particles in Terms of Marian von Smoluchowski’s Heuristic Model. Klein, H.; Woermann, D. November, 1642–1644. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) Wally, L. M.; Levinger, N. E.; Grainger, D. W. October, 1489–1495. A Low-Cost Experiment on Newtonian and NonNewtonian Fluids. Dolz, M.; Delegido, J.; Casanovas, A.; Hernández, M. March, 445–447. Organic Spectroscopy Laboratory: Utilizing IR and NMR in the Identification of an Unknown Substance. Glagovich, N. M.; Shine, T. D. September, 1382–1384. Thermal Expansion: Using Calculator-Based Laboratory Technology To Observe the Anomalous Behavior of Water. Branca, M.; Soletta, I. April, 613–615. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918.

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Mathematics / Symbolic Mathematics Computing Liquid–Vapor Phase Diagrams for Non-Ideal Binary Mixtures. (JCE SymMath) Chen, F. M. July, 1100. Data Analysis (Damped Oscillations) Using the Genfit Function. (JCE SymMath) Poshusta, R. D. July, 1101. Equilibria That Shift Left upon Addition of More Reactant. Lacy, J. E. August, 1192–1193.


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Subject Index • Volume 82 • 2005 Exploring the Uncertainty Principle. (JCE SymMath) Chen, F. M. July, 1101. Interactive Spreadsheets in JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. August, 1263. Learning Molecular Geometry and Symmetry through Quantum Computations and Mathcad Exercises. (JCE SymMath) Chen, F. M. January, 174. No Problems with Q. (Letter) Lederer, R. August, 1149. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. June, 960. The Pythagorean Theorem and the Solid State. Kelly, B. S.; Splittgerber, A. G. May, 756–761. Quantum States of Atoms and Molecules. (JCE LivTexts) Hanson, D. M.; Zielinski, T. J.; Harvey, E.; Sweeney, R. December, 1880. The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems. (2AP) Matsumoto, P. S. March, 406–407. Reactions to “The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems” —Author Reply (J. Chem. Educ. 2005, 82, 406–407). (Letter) Matsumoto, P. S. August, 1150. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. Robust Linear Regression Using Theil’s Method. (Letter) Glaister, P. October, 1472–1473. A Simple Reduction Process for the Normal Vibrational Modes Occurring in Linear Molecules. McInerny, W. J. January, 140–144. Single-Slit Diffraction and the Uncertainty Principle. Rioux, F. August, 1210. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100. SymMath, Fair Use, and Additions to the Collection. (JCE SymMath) Zielinski, T. J. January, 172–174. Using a Computer To Help Understand How Symmetry Principles Reduce Calculations. (JCE SymMath) Kijewski, L. January, 174.

Mechanisms of Reactions The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051– 1052. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Chemistry Comes Alive!, Volume 7. Abstract of Special Issue 32, a CD-ROM of Flames and Explosions. (JCE Software) Bain, R.; Jacobsen, J. J.; Maynard, J. H.; Moore, J. W. July, 1102–1104. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230. Demonstrating Energy Migration in Coupled Oscillators: A Central Concept in the Theory of Unimolecular Reactions. (TD) Marcotte, R. E. October, 1530–1531. The Ethylene Ketal Protecting Group Revisited: The Synthesis of 4-Hydroxy-4,4-diphenyl-2-butanone. Baar, M. R.; Russell, C. E.; Wustholz, K. L. July, 1057–1058. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) Kwan, E. E. July, 1026–1030. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. Clennan, M. M.; Clennan, E. L. November, 1676–1678. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. Hydrolysis of Pentaamminechlorocobalt(III): A Unified Mechanistic View. González-Ferrer, G.; Martínez López, M. November, 1671–1673. “It Gets Me to the Product”: How Students Propose Organic Mechanisms. (CER) Bhattacharyya, G.; Bodner, G. M. September, 1402–1407. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841.

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The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. March, 466–467. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. “You’re Repulsive!”—Teaching VSEPR in a Not-So-Elegant Way. Liu, R. S. April, 558–560.

Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Research Advances: A New Approach to Natural Product Identification; Acrylamide in French Fries; Selectively Sensing Mercury with Oligonucleotide-Based Detectors. (ROJResAdv) King, A. G. January, 10–14.

Metabolism Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. “In Yeast” Wordsearch. Helser, T. L. April, 552.

Medicinal Chemistry Acid-Catalyzed Isomerization of Carvone to Carvacrol. Kjonaas, R. A.; Mattingly, S. P. December, 1813– 1814. Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Research Advances: Cars of the Future—Powered by Poison?; Prehistoric Beverage Choices; Health Benefits of Chamomile. (ROJResAdv) King, A. G. April, 506– 510. Research Advances: Dendritic Macromer Replaces Sutures in Cataract Surgery; Promising Polymer Therapy for Paralyzed Dogs; Compound in Smoke Provides the Spark for Germination. (ROJResAdv) King, A. G. March, 346–348. Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670. Research Advances: Horseradish, Peroxide Mixture May End War of the Noses; Even Low Levels of Benzene Are Hemotoxic; New “Nuclear Battery” Runs 10 Years, 10 Times More Powerful. (ROJResAdv) King, A. G. November, 1594–1597. Research Advances: Nanoshells vs Cancer Cells; Sex Pheromone of Cockroach Identified; New Fluorophores Unmasked by Chemical Reaction. (ROJResAdv) King, A. G. September, 1274–1278. Research Advances: Nitric Oxide Synthase Reduces Cr(VI); The Chemistry of Popcorn: It’s All About “Pop-Ability”; Nanotubes May Help Heal Broken Bones; New Method Unites Organic Materials and Nanotechnology. (ROJResAdv) King, A. G. December, 1754–1759. Research Advances: Onions Battle Osteoporosis; New Weapon in War on TB; Smokers Beware: Study Shows Increased Cadmium Levels in the Brain May Cause Severe Neurological Disorders. (ROJResAdv) King, A. G. August, 1114–1116. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973. Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400. Testing for Ultraviolet Toxicity Using Fungi. Vital, M.; Esperón, P. June, 926–929.

Metallic Bonding Metal–Ligand Bonding (by Rob Janes and Elaine Moore). (BMR) Pesterfield, L. L. August, 1153–1154.

Metals Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. ColladoSánchez, C.; Hernández-Brito, J. J.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. February, 271–273. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. Memory Metal. (JCE Classroom Activity) JCE Editorial Staff. October, 1488A–1488B. More Elementary Riddles. Cunningham, K. D. April, 539–540. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. Properties of the Lanthanide Metals: Correlations and Discontinuities (re J. Chem. Educ. 2005, 82, 473– 483). (Letter) Laing, M. November, 1623. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B.

Micelles Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670.

Microscale Lab An Azulene-Based Discovery Experiment: Challenging Students To Watch for the “False Assumption”. Garner, C. M. November, 1686–1688. Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. Baar, M. R.; Wustholz, K. L. September, 1393–1394. Formation of α-Tetralone by Intramolecular Friedel– Crafts Acylation. (ML) Holden, M. S.; Crouch, R. D.; Barker, K. H. June, 934–935. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. Clennan, M. M.; Clennan, E. L. November, 1676–1678. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B.

Membranes Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233.

Mercury Mercury Thermometer Replacements in Chemistry Laboratories. Foster, B. L. February, 269–270. Mercury. (CLIP) Young, J. A. February, 203. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E.; Smith, C. J. February, 265–268.

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E. September, 1408–1412. Some Insights Regarding a Popular Introductory Gas Law Experiment. DePierro, E.; Garafalo, F. August, 1194–1196. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209. The The Stereochemistry of Biochemical Molecules: A Subject to Revisit. Centelles, J. J.; Imperial, S. January, 75–78. Stereogenic Centers and Axes: A Comparison of the Chiral Topologies Available to Cabcd and abC=C=Ccd. Lloyd-Williams, P.; Giralt, E. July, 1031–1033. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Understanding Rotation about a C=C Double Bond. Barrows, S. E.; Eberlein, T. H. September, 1329– 1333. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583. Valence, Covalence, Hypervalence, Oxidation State, and Coordination Number. Smith, D. W. August, 1202– 1204. What Is a Reaction Rate? Schmitz, G. July, 1091–1093. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522.

A Collaborative Experiment for Advanced Undergraduates. Rebolledo, F.; Liz, R. June, 930–933. Synthesis of Meso-Octamethylporphyrinogen: An Undergraduate Laboratory Mini-Scale Experiment in Organic Heterocyclic Chemistry. (ML) Sobral, A. J. April, 618–620.

The Microscale Laboratory Formation of α-Tetralone by Intramolecular Friedel– Crafts Acylation. (ML) Holden, M. S.; Crouch, R. D.; Barker, K. H. June, 934–935. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. Synthesis of Meso-Octamethylporphyrinogen: An Undergraduate Laboratory Mini-Scale Experiment in Organic Heterocyclic Chemistry. (ML) Sobral, A. J. April, 618–620.

Mnemonics / Rote Learning Fully Exploiting the Potential of the Periodic Table through Pattern Recognition. Schultz, E. November, 1649–1657. “You’re Repulsive!”—Teaching VSEPR in a Not-So-Elegant Way. Liu, R. S. April, 558–560.

Minorities in Chemistry Teaching Biochemistry at a Minority-Serving Institution: An Evaluation of the Role of Collaborative Learning as a Tool for Science Mastery. Peters, A. W. April, 571– 574. Undergraduate Transitions: Enhancing Student Success. (ACS) Wesemann, J. February, 196–198.

Molecular Biology Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. Testing for Ultraviolet Toxicity Using Fungi. Vital, M.; Esperón, P. June, 926–929.

Misconceptions / Discrepant Events Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. Cis and Trans Isomers of Cycloalkenes. Barrows, S. E.; Eberlein, T. H. September, 1334–1339. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) Kruse, R. A.; Roehrig, G. H. August, 1246–1250. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. A Demonstration of Sample Segregation. (TD) Fritz, M. D. February, 255–256. E = mc 2 for the Chemist: When Is Mass Conserved? Treptow, R. S. November, 1636–1641. Education of Teachers for Excellence. (Editorial) Moore, J. W. August, 1111. Equilibria That Shift Left upon Addition of More Reactant. Lacy, J. E. August, 1192–1193. Equilibrium Constants and Water Activity. (Letter) Keeports, D. July, 999. Evaluating Students’ Conceptual Understanding of Balanced Equations and Stoichiometric Ratios Using a Particulate Drawing. (CER) Sanger, M. J. January, 131–134. Improving Conceptions in Analytical Chemistry: ciVi = cfVf. Rodríguez-López, M.; Carrasquillo, A., Jr. September, 1327–1328. Learner-Centered Education. (EHST) Mason, D. S. August, 1113. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Microscopic Description of Le Châtelier Principle. Novak, I. August, 1190–1191. Misconceptions in Sign Conventions: Flipping the Electric Dipole Moment. Hovick, J. W.; Poler, J. C. June, 889. A Note on Dalton’s Law: Myths, Facts, and Implementation. Missen, R. W.; Smith, W. R. August, 1197– 1201. Reaction to “Something Might Be Gaining on Us” (re J. Chem. Educ. 2004, 81, 1079). (Letter) Dybowski, C. R. February, 210–211. The Same or Not the Same: Equivalence as an Issue in Educational Research. (CER) Lewis, S. E.; Lewis, J.

www.JCE.DivCHED.org


Molecular Mechanics / Dynamics Computer Modeling and Research in the Classroom. Ramos, M. J.; Fernandes, P. A. July, 1021–1025. Diels–Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. April, 625–629. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Molecular Visualization in Science Education: An Evaluation of an NSF-Sponsored Workshop. (CER) José, T.; Williamson, V. M. June, 937–943. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. Galembeck, S. E.; Caramori, G. F.; Romero, J. R. December, 1800–1804. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973. Simple Dynamic Models for Hydrogen Bonding Using Velcro-Polarized Molecular Models. Schultz, E. March, 401–405. Understanding Rotation about a C=C Double Bond. Barrows, S. E.; Eberlein, T. H. September, 1329– 1333. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918.

Molecular Modeling 3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimen-

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sional Perception of Molecular Symmetry. (JCE WebWare) Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. November, 1741–1742. Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) Ship, N. J.; Zamble, D. B. December, 1805–1808. Antimicrobial Agents Used on Textiles. (JCE Featured Molecules) Coleman, W. F. January, 171. Azulene Chemistry. (JCE Featured Molecules) Coleman, W. F. November, 1688. Chemistry of Blood Types. (JCE Featured Molecules) Coleman, W. F. December, 1853. The Chemistry of Coffee. (JCE Featured Molecules) Coleman, W. F. August, 1167. Cis and Trans Isomers of Cycloalkenes. Barrows, S. E.; Eberlein, T. H. September, 1334–1339. Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) Whisnant, D. M.; Lever, L. S.; Howe, J. J. February, 334. Compounds That Promote Seed Germination. (JCE Featured Molecules) Coleman, W. F. March, 488. Computer Modeling and Research in the Classroom. Ramos, M. J.; Fernandes, P. A. July, 1021–1025. Connected Chemistry. (JCE WebWare) Stieff, M. March, 494. Diels–Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. April, 625–629. Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. Casey, R. E.; Pittman, F. A. February, 260–264. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Menthol Stereoisomers. (JCE Featured Molecules) Coleman, W. F. July, 1048. Molecular Visualization in Science Education: An Evaluation of an NSF-Sponsored Workshop. (CER) José, T.; Williamson, V. M. June, 937–943. Moth Repellent Chemicals. (JCE Featured Molecules) Coleman, W. F. September, 1324. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. Galembeck, S. E.; Caramori, G. F.; Romero, J. R. December, 1800–1804. Nicotine Smoke Chemistry. (JCE Featured Molecules) Coleman, W. F. October, 1583. Organic Xenobiotics. (JCE Featured Molecules) Coleman, W. F. February, 264. Peer-Reviewed WebWare: Connected Chemistry. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. March, 494. Photosystem II Oxygen-Evolving Complex. (JCE Featured Molecules) Coleman, W. F. May, 800. Quantitative Thermodynamic Descriptions of Aromaticity. A Computational Exercise for the Organic Chemistry Laboratory. (MMEE) Gavin, T. June, 953–957. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973. Shikimic Acid. (JCE Featured Molecules) Coleman, W. F. April, 656. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209. Understanding Rotation about a C=C Double Bond. Barrows, S. E.; Eberlein, T. H. September, 1329– 1333. Weekly Molecules: A Cure for the 8:30 a.m. Blues. (JCE Featured Molecules) Coleman, W. F. June, 850.

Molecular Modeling Exercises and Experiments Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) Ship, N. J.; Zamble, D. B. December, 1805–1808. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Quantitative Thermodynamic Descriptions of Aromaticity. A Computational Exercise for the Organic Chemistry Laboratory. (MMEE) Gavin, T. June, 953–957.


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Subject Index • Volume 82 • 2005 Structure and Bonding in Group 14 Congeners of Ethene: DFT Calculations in the Inorganic Chemistry Laboratory. (MMEE) Streit, B. R.; Geiger, D. K. January, 111–115.

Molecular Orbital (MO) Theory Comments on Purser’s Article: “Lewis Structures are Models for Predicting Molecular Structure, Not Electronic Structure” (re J. Chem. Educ. 1999, 76, 1013– 1018). (Letter) Weinhold, F. A. April, 527–528. Correction to “A Model for the Chemical Bond” (re J. Chem. Educ. 2004, 81, 427–435). (Correction) Magnasco, V. September, 1311. Quantum States of Atoms and Molecules. (JCE LivTexts) Hanson, D. M.; Zielinski, T. J.; Harvey, E.; Sweeney, R. December, 1880. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209. Structure and Bonding in Group 14 Congeners of Ethene: DFT Calculations in the Inorganic Chemistry Laboratory. (MMEE) Streit, B. R.; Geiger, D. K. January, 111–115. Where Should the Nuclei Be Located? Liu, Y.; Liu, Y.; Drew, M. February, 320–322.

Molecular Properties / Structure


A 3D Model of Double-Helical DNA Showing Variable Chemical Details. Cady, S. January, 79–84. 3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. November, 1741–1742. An Animated Interactive Overview of Molecular Symmetry. (JCE WebWare) Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1742–1743. Antimicrobial Agents Used on Textiles. (JCE Featured Molecules) Coleman, W. F. January, 171. Azulene Chemistry. (JCE Featured Molecules) Coleman, W. F. November, 1688. Chemistry of Blood Types. (JCE Featured Molecules) Coleman, W. F. December, 1853. The Chemistry of Coffee. (JCE Featured Molecules) Coleman, W. F. August, 1167. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. Reed, N. A.; Rapp, R. D.; Hamann, C. S.; Artz, P. G. July, 1053–1054. Comments on Purser’s Article: “Lewis Structures are Models for Predicting Molecular Structure, Not Electronic Structure” (re J. Chem. Educ. 1999, 76, 1013– 1018). (Letter) Weinhold, F. A. April, 527–528. Compounds That Promote Seed Germination. (JCE Featured Molecules) Coleman, W. F. March, 488. Correction to “A Model for the Chemical Bond” (re J. Chem. Educ. 2004, 81, 427–435). (Correction) Magnasco, V. September, 1311. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Crystallographic Study of Manganese(III) Acetylacetonate: An Advanced Undergraduate Project with Unexpected Challenges. Geremia, S.; Demitri, N. March, 460–465. Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Further Analysis of Boiling Points of Small Molecules, CHwFxClyBrz. Beauchamp, G. December, 1842–1845. Mage: A Tool for Developing Interactive Instructional Graphics. (JCE WebWare) Pavkovic, S. F. January, 167–171. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Menthol Stereoisomers. (JCE Featured Molecules) Coleman, W. F. July, 1048. Misconceptions in Sign Conventions: Flipping the Electric Dipole Moment. Hovick, J. W.; Poler, J. C. June, 889. Moth Repellent Chemicals. (JCE Featured Molecules) Coleman, W. F. September, 1324.

Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. Chemistry Comes Alive!, Volume 7. Abstract of Special Issue 32, a CD-ROM of Flames and Explosions. (JCE Software) Bain, R.; Jacobsen, J. J.; Maynard, J. H.; Moore, J. W. July, 1102–1104. Connected Chemistry—A Novel Modeling Environment for the Chemistry Classroom. Stieff, M. March, 489– 493. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. Introduction to Protein and Peptide Analysis with Mass Spectrometry (by Fred Klink). (BMR) Harvey, D. T. July, 1003–1004. Journal of Chemical Education on CD-ROM, 2004. Abstract of JCE CD 2004. (JCE Software) Holmes, J. L. February, 336. A Lattice Energy Spreadsheet. (JCE WebWare) King, C. October, 1584. Mage: A Tool for Developing Interactive Instructional Graphics. (JCE WebWare) Pavkovic, S. F. January, 167–171. Writing-Intensive Multimedia Projects in the Instrumental Methods Course. Van Ryswyk, H. January, 70–72. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) Harris, H. H. April, 530–531.

1932

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Nanotechnology

Nicotine Smoke Chemistry. (JCE Featured Molecules) Coleman, W. F. October, 1583. Organic Xenobiotics. (JCE Featured Molecules) Coleman, W. F. February, 264. Photosystem II Oxygen-Evolving Complex. (JCE Featured Molecules) Coleman, W. F. May, 800. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Polypyrazolylborates: Scorpionates. (POC) Trofimenko, S. November, 1715–1720. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973. A Set of Hands-On Exercises on Conformational Analysis. Pellegrinet, S. C.; Mata, E. G. January, 73–74. Shikimic Acid. (JCE Featured Molecules) Coleman, W. F. April, 656. Simple Dynamic Models for Hydrogen Bonding Using Velcro-Polarized Molecular Models. Schultz, E. March, 401–405. Stereogenic Centers and Axes: A Comparison of the Chiral Topologies Available to Cabcd and abC=C=Ccd. Lloyd-Williams, P.; Giralt, E. July, 1031–1033. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Teaching Molecular Symmetry with JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. November, 1741. Use Correct Projection. (Letter) Kapoor, V. K. June, 838. The Use of the Free, Open-Source Program Jmol To Generate an Interactive Web Site To Teach Molecular Symmetry. Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1736–1740. Weekly Molecules: A Cure for the 8:30 a.m. Blues. (JCE Featured Molecules) Coleman, W. F. June, 850. Where Should the Nuclei Be Located? Liu, Y.; Liu, Y.; Drew, M. February, 320–322.

Colors in Liquid Crystals. (JCE Classroom Activity) Lisensky, G. C.; Boatman, E. M. September, 1360A– 1360B. Communicating Science to the Public through a University–Museum Partnership. Payne, A. C.; deProphetis, W. A.; Ellis, A. B.; Derenne, T. G.; Zenner, G. M.; Crone, W. C. May, 743–750. Electrochemical Fabrication of Metallic Quantum Wires. Tao, N. May, 720–726. Electrochemistry at Nanometer-Scaled Electrodes. Watkins, J. J.; Zhang, B.; White, H. S. May, 712– 719. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. Heinz, W. F.; Hoh, J. H. May, 695–703. Growth Kinetics and Modeling of ZnO Nanoparticles. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. May, 775–778. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. Imagination. (Editorial) Moore, J. W. May, 663. Nanopatterning with Lithography. (JCE Classroom Activity) Haynes, C. L.; McFarland, A. D.; Van Duyne, R. P.; Godwin, H. A. May, 768A–768B. Nanophysics and Nanotechnology: An Introduction to Modern Concepts in Nanoscience (by Edward L. Wolf ). (BMR) Somer, F. L., Jr. November, 1625– 1626. Nantribology: Rubbing on a Small Scale. Dickinson, J. T. May, 734–742. Nature: Small, Smaller, Smallest. A Pocket-size Device, Nano-size Electrical Conduits, and Amyloid Protein Fibril Structure. (ROJNature) Heinhorst, S.; Cannon, G. November, 1599–1600. Our Molecular Future: How Nanotechnology, Robotics, Genetics, and Artificial Intelligence Will Transform Our World (by Douglas Mulhall). (BMR) Frech, C. B. May, 685–686. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Preparation of Dppe-Stabilized Gold Nanoparticles. Dungey, K. E.; Muller, D. P.; Gunter, T. May, 769– 770. Quantum Dots: An Experiment for Physical or Materials Chemistry. Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. November, 1700–1702. Research Advances: Children on School Buses May Face Increased Exposure to Diesel Pollution; Where Did All the Nitrogen Go?; Designer Wires. (ROJResAdv) King, A. G. October, 1434–1438. Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670. Research Advances: Nanoshells vs Cancer Cells; Sex Pheromone of Cockroach Identified; New Fluorophores Unmasked by Chemical Reaction. (ROJResAdv) King, A. G. September, 1274–1278. Research Advances: Nitric Oxide Synthase Reduces Cr(VI); The Chemistry of Popcorn: It’s All About “Pop-Ability”; Nanotubes May Help Heal Broken Bones; New Method Unites Organic Materials and Nanotechnology. (ROJResAdv) King, A. G. December, 1754–1759. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. November, 1697–1699. Single-Molecule Electronic Measurements with Metal Electrodes. Lindsay, S. May, 727–733. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. Williams, G. L.; Vohs, J. K.; Brege, J. J.; Fahlman, B. D. May, 771– 774. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400. Surface pKa of Self-Assembled Monolayers. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. May, 779– 781. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. Bentley, A. K.; Farhoud, M.; Ellis,

Molecular Recognition Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Plastic Antibodies: Molecular Recognition with Imprinted Polymers. An Introductory Polymer Chemistry Laboratory Investigation. Rushton, G. T.; Furmanski, B. D.; Shimizu, K. D. September, 1374– 1377. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400.

Multimedia-Based Learning


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www.JCE.DivCHED.org


Delay Behavioral Maturation; Liquid Crystal Cylinders. (ROJResAdv) King, A. G. June, 810–814. Research Advances: Nanoshells vs Cancer Cells; Sex Pheromone of Cockroach Identified; New Fluorophores Unmasked by Chemical Reaction. (ROJResAdv) King, A. G. September, 1274–1278. Research Advances: Onions Battle Osteoporosis; New Weapon in War on TB; Smokers Beware: Study Shows Increased Cadmium Levels in the Brain May Cause Severe Neurological Disorders. (ROJResAdv) King, A. G. August, 1114–1116. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583.

A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. May, 765–768. The World According to Nanotechnology. (EHST) Mason, D. S. May, 665.

National Chemistry Week Balloon–Toy of Many Colors. (FPI) Williams, K. R. October, 1448–1449. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. Luminol (3-Aminophthalhydrazide). (CLIP) Young, J. A. October, 1465. Memory Metal. (JCE Classroom Activity) JCE Editorial Staff. October, 1488A–1488B. National Chemistry Week 2005: Cover Feature. Soap Films and the Joy of Bubbles. Saecker, M. E. October, 1447. National Chemistry Week 2005: The Joy of Toys. JCE Resources for Chemistry and Toys. Jacobsen, E. K. October, 1443–1446. News from Online: Toying with Chemistry. (ROJOnline) Harris, J.; Kehoe, S. October, 1458– 1460. Poly(Vinyl Alcohol). (CLIP) Young, J. A. October, 1466. Toys in the Classroom. Sarquis, J. L.; Sarquis, A. M. October, 1450–1453.

Nickel Memory Metal. (JCE Classroom Activity) JCE Editorial Staff. October, 1488A–1488B. Nickel(II) Carbonate. (CLIP) Young, J. A. June, 830. Nickel(II) Oxide. (CLIP) Young, J. A. June, 831.

Nitrogen Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) Oliver-Hoyo, M. T.; Switzer, W. L., III. February, 251–254. Nitrogen: It Always Needs a Fix. (FPI) Williams, K. R. February, 194–195. Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090.

Natural Products Acid-Catalyzed Isomerization of Carvone to Carvacrol. Kjonaas, R. A.; Mattingly, S. P. December, 1813– 1814. A Closer Look at Acid–Base Olfactory Titrations. Neppel, K.; Oliver-Hoyo, M. T.; Queen, C.; Reed, N. April, 607–610. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. December, 1815–1819. The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. Exploration of the Chemistry of Plants: A General Education Course. (IC) Séquin, M. December, 1787– 1790. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381. I Screen, You Screen, We All Screen for Phenolics. (JCE Classroom Activity) Sady, M. B. December, 1808A– 1808B. Isolation of Shikimic Acid from Star Aniseed. Payne, R.; Edmonds, M. K. April, 599–600. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. Barreto, M. C. January, 103–104. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167. Polymer Chemistry: Introduction to an Indispensable Science (by David M. Teegarden). (BMR) Matthews, M. S. February, 213–214. Promethean Ambitions: Alchemy and the Quest to Perfect Nature (by William R. Newman). (BMR) Bernal, P. J. April, 531–532. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. Research Advances: A New Approach to Natural Product Identification; Acrylamide in French Fries; Selectively Sensing Mercury with Oligonucleotide-Based Detectors. (ROJResAdv) King, A. G. January, 10–14. Research Advances: Dendritic Macromer Replaces Sutures in Cataract Surgery; Promising Polymer Therapy for Paralyzed Dogs; Compound in Smoke Provides the Spark for Germination. (ROJResAdv) King, A. G. March, 346–348. Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670. Research Advances: Mechanism of Copper Acquisition by Methanotrophs; Honey Bees Use Pheromone To

www.JCE.DivCHED.org


NMR Spectroscopy Acid-Catalyzed Isomerization of Carvone to Carvacrol. Kjonaas, R. A.; Mattingly, S. P. December, 1813– 1814. Application of ChemDraw NMR Tool: Correlation of Program-Generated 13C Chemical Shifts and pKa Values of para-Substituted Benzoic Acids. Wang, H. September, 1340–1341. An Azulene-Based Discovery Experiment: Challenging Students To Watch for the “False Assumption”. Garner, C. M. November, 1686–1688. Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. Cerrada, E.; Laguna, M. April, 630–633. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Diels–Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. April, 625–629. Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. Baar, M. R.; Wustholz, K. L. September, 1393–1394. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. The Ethylene Ketal Protecting Group Revisited: The Synthesis of 4-Hydroxy-4,4-diphenyl-2-butanone. Baar, M. R.; Russell, C. E.; Wustholz, K. L. July, 1057–1058. Formation of α-Tetralone by Intramolecular Friedel– Crafts Acylation. (ML) Holden, M. S.; Crouch, R. D.; Barker, K. H. June, 934–935. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave, G. W.; Raston, C. L. March, 468–469. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617.

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Introducing JCE ChemInfo: Organic. (JCE ChemInfo) Reich, H. March, 495–496. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. Isolation of Shikimic Acid from Star Aniseed. Payne, R.; Edmonds, M. K. April, 599–600. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B. A Collaborative Experiment for Advanced Undergraduates. Rebolledo, F.; Liz, R. June, 930–933. A Networked NMR Spectrometer: Configuring a Shared Instrument. Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Kosinski, J.; Sinton, M. September, 1342–1344. NMR Analysis of Unknowns: An Introduction to 2D NMR Spectroscopy. Alonso, D. E.; Warren, S. E. September, 1385–1386. Organic Spectroscopy Laboratory: Utilizing IR and NMR in the Identification of an Unknown Substance. Glagovich, N. M.; Shine, T. D. September, 1382– 1384. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. March, 466–467. Research Advances: A New Approach to Natural Product Identification; Acrylamide in French Fries; Selectively Sensing Mercury with Oligonucleotide-Based Detectors. (ROJResAdv) King, A. G. January, 10–14. Research Advances: Cars of the Future—Powered by Poison?; Prehistoric Beverage Choices; Health Benefits of Chamomile. (ROJResAdv) King, A. G. April, 506– 510. Rotor-shaped Cyclopentadienyltetraphenylcyclobutadienecobalt. An Advanced Inorganic Experiment. MacFarland, D. K.; Gorodetzer, R. January, 109–110. The Sharpless Asymmetric Dihydroxylation in the Organic Chemistry Majors Laboratory. Nichols, C. J.; Taylor, M. R. January, 105–108. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379. Use of Enzymes in Organic Synthesis: Reduction of Ketones by Baker’s Yeast Revisited. Patterson, J.; Sigurdsson, S. T. July, 1049–1050. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735.

Nomenclature / Units / Symbols Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Editor’s Note about “The Kilogram and the Mole Redux”. (Letter) Moore, J. W. February, 212. Finding Chemical Anchors in the Kitchen. (CFK) Haim, L. February, 228–230. Improving Conceptions in Analytical Chemistry: ciVi = cfVf. Rodríguez-López, M.; Carrasquillo, A., Jr. September, 1327–1328. “In Yeast” Wordsearch. Helser, T. L. April, 552. Introducing JCE ChemInfo: Organic. (JCE ChemInfo) Reich, H. March, 495–496. Kilogram and the Mole Redux. (Letter) Karol, P. J. February, 212. Water Wordsearch. Helser, T. L. April, 551.


1933

Subject Index • Volume 82 • 2005 Noncovalent Interactions Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. Heinz, W. F.; Hoh, J. H. May, 695–703. Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. Casey, R. E.; Pittman, F. A. February, 260–264. Misconceptions in Sign Conventions: Flipping the Electric Dipole Moment. Hovick, J. W.; Poler, J. C. June, 889. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. Galembeck, S. E.; Caramori, G. F.; Romero, J. R. December, 1800–1804. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. January, 93–95. Simple Dynamic Models for Hydrogen Bonding Using Velcro-Polarized Molecular Models. Schultz, E. March, 401–405. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400.


E = mc 2 for the Chemist: When Is Mass Conserved? Treptow, R. S. November, 1636–1641. From Masurium to Trinacrium: The Troubled Story of Element 43. Zingales, R. February, 221–227. The Origins of the Symbols A and Z for Atomic Weight and Number. (ASK) Jensen, W. B. December, 1764. The Relationship between Balancing Reactions and Reaction Lifetimes: A Consideration of the Potassium– Argon Radiometric Method for Dating Minerals. Howard, W. A. July, 1094–1098. Some Footnotes on the History of Masurium. (Letter) Wagner, H. J. September, 1309.

Nucleic Acids / DNA / RNA A 3D Model of Double-Helical DNA Showing Variable Chemical Details. Cady, S. January, 79–84. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598. Testing for Ultraviolet Toxicity Using Fungi. Vital, M.; Esperón, P. June, 926–929.

Nutrition Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167.

Organic Chemistry

Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503.

Acid-Catalyzed Isomerization of Carvone to Carvacrol. Kjonaas, R. A.; Mattingly, S. P. December, 1813– 1814. ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363. ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051– 1052. Application of ChemDraw NMR Tool: Correlation of Program-Generated 13C Chemical Shifts and pKa Values of para-Substituted Benzoic Acids. Wang, H. September, 1340–1341. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. June, 901–902. An Azulene-Based Discovery Experiment: Challenging Students To Watch for the “False Assumption”. Garner, C. M. November, 1686–1688. Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. Mills, N. S.; Spence, J. D.; Bushey, M. M. August, 1226–1228. Chemistry of Durable and Regenerable Biocidal Textiles. (POC) Sun, G.; Worley, S. D. January, 60–64. Chiral Crystallization of Ethylenediamine Sulfate. Koby, L.; Ningappa, J. B.; Dakessian, M.; Cuccia, L. A. July, 1043–1045. Chirality Made Simple: A 1- and 2-Dimensional Introduction to Stereochemistry. Gawley, R. E. July, 1009– 1012. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. Reed, N. A.; Rapp, R. D.; Hamann, C. S.; Artz, P. G. July, 1053–1054. Cis and Trans Isomers of Cycloalkenes. Barrows, S. E.; Eberlein, T. H. September, 1334–1339. Comparative Methylation of 1,8-Dihydroxy-9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. Sereda, G. December, 1839–1840. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. A Convenient Method for Dispensing Organometallic Reagents. (CET) Newton, T. A. June, 936. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. Heinson, C. D.; Williams, J. M.; Tinnerman, W. N.; Malloy, T. B. May, 787–789. Diels–Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification

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Nonmajor Courses Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. Brewing Science in the Chemistry Laboratory: A “Mashing” Investigation of Starch and Carbohydrates. Pelter, M. W.; McQuade, J. December, 1811–1812. Chemical Demonstrations as the Laboratory Component in Nonscience Majors Courses. An Outreach-Targeted Approach. Ophardt, C. E.; Applebee, M. S.; Losey, E. N. August, 1174–1177. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) Kruse, R. A.; Roehrig, G. H. August, 1246–1250. Exploration of the Chemistry of Plants: A General Education Course. (IC) Séquin, M. December, 1787– 1790. Intermolecular Forces as a Key to Understanding the Environmental Fate of Organic Xenobiotics. Casey, R. E.; Pittman, F. A. February, 260–264. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. Napoleon’s Buttons: Teaching the Role of Chemistry in History. Samet, C.; Higgins, P. J. October, 1496– 1500. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Rapid Determination of Mercury in Seafood in an Introductory Environmental Science Class. Rice, J. K.; Jenkins, J. D.; Manley, C.; Sorel, E.; Smith, C. J. February, 265–268. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) Harris, H. H. April, 530–531.

Nonmetals Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. More Elementary Riddles. Cunningham, K. D. April, 539–540.

Nuclear / Radiochemistry


Exercise Involving NMR Spectroscopy and Molecular Modeling. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. April, 625–629. Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. Baar, M. R.; Wustholz, K. L. September, 1393–1394. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. Baar, M. R.; Cerrone-Szakal, A. L. July, 1040–1042. An Engaging Illustration of the Physical Differences among Menthol Stereoisomers. Treadwell, E. M.; Black, T. H. July, 1046–1048. The Ethylene Ketal Protecting Group Revisited: The Synthesis of 4-Hydroxy-4,4-diphenyl-2-butanone. Baar, M. R.; Russell, C. E.; Wustholz, K. L. July, 1057–1058. The Evolution of a Green Chemistry Laboratory Experiment: Greener Brominations of Stilbene. (GRN) McKenzie, L. C.; Huffman, L. M.; Hutchison, J. E. February, 306–310. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) Kwan, E. E. July, 1026–1030. Formation of α-Tetralone by Intramolecular Friedel– Crafts Acylation. (ML) Holden, M. S.; Crouch, R. D.; Barker, K. H. June, 934–935. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. Clennan, M. M.; Clennan, E. L. November, 1676–1678. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave, G. W.; Raston, C. L. March, 468–469. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. Improved Preparation of 2,4-Dinitrophenylhydrazine Reagent. (Letter) Ruekberg, B.; Rossoni, E. September, 1310. Instant Notes in Organic Chemistry, 2nd Edition (by Graham L. Patrick). (BMR) Eberlein, T. H. December, 1778–1780. Instrumental Proficiency Program for Undergraduates. Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. June, 898– 900. Introducing JCE ChemInfo: Organic. (JCE ChemInfo) Reich, H. March, 495–496. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? de Levie, R. June, 885–888. Isolation of Shikimic Acid from Star Aniseed. Payne, R.; Edmonds, M. K. April, 599–600. “It Gets Me to the Product”: How Students Propose Organic Mechanisms. (CER) Bhattacharyya, G.; Bodner, G. M. September, 1402–1407. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) Rosenstein, I. J. April, 652–654. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537. Mercury Thermometer Replacements in Chemistry Laboratories. Foster, B. L. February, 269–270. Microscale Synthesis and 1H NMR Analysis of ZnII and


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www.JCE.DivChed.org/Journal/Search/ NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) White, L. L.; Kittredge, K. W. July, 1055– 1056. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B. A Collaborative Experiment for Advanced Undergraduates. Rebolledo, F.; Liz, R. June, 930–933. Name Reactions and Reagents in Organic Synthesis, 2nd Ed. (by Bradford P. Mundy, Michael G. Ellerd, and Frank G. Favaloro). (BMR) Holman, R. W. December, 1780–1782. Named Organic Reactions, 2nd Ed. (by Thomas Laue and Andreas Plagens). (BMR) Holman, R. W. December, 1780–1782. A Networked NMR Spectrometer: Configuring a Shared Instrument. Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Kosinski, J.; Sinton, M. September, 1342–1344. NMR Analysis of Unknowns: An Introduction to 2D NMR Spectroscopy. Alonso, D. E.; Warren, S. E. September, 1385–1386. Online Sources of Organic Data. (Letter) Myers, B. J. November, 1623. Organic Chemistry at a Glance (by L. M. Harwood, J. E. McKendrick, and R. C. Whitehead). (BMR) Gooch, E. E. June, 841–842. The Organic Chemistry of Biological Pathways (by John E. McMurry and Tadhg P. Begley). (BMR) Rosan, A. M. November, 1626–1628. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. Organic Chemistry: An Intermediate Text, Second Edition (by Robert V. Hoffman). (BMR) Waddell, T. G. February, 215–216. Organic Spectroscopy Laboratory: Utilizing IR and NMR in the Identification of an Unknown Substance. Glagovich, N. M.; Shine, T. D. September, 1382– 1384. Organic Xenobiotics. (JCE Featured Molecules) Coleman, W. F. February, 264. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167. Qualitative Organic Analysis—In the Classroom and Laboratory. Finley, K. T. February, 240. Quantitative Thermodynamic Descriptions of Aromaticity. A Computational Exercise for the Organic Chemistry Laboratory. (MMEE) Gavin, T. June, 953–957. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. March, 466–467. Research Advances: A New Approach to Natural Product Identification; Acrylamide in French Fries; Selectively Sensing Mercury with Oligonucleotide-Based Detectors. (ROJResAdv) King, A. G. January, 10–14. Research Advances: Dendritic Macromer Replaces Sutures in Cataract Surgery; Promising Polymer Therapy for Paralyzed Dogs; Compound in Smoke Provides the Spark for Germination. (ROJResAdv) King, A. G. March, 346–348. Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670. Research Advances: Mechanism of Copper Acquisition by Methanotrophs; Honey Bees Use Pheromone To Delay Behavioral Maturation; Liquid Crystal Cylinders. (ROJResAdv) King, A. G. June, 810–814. Research Advances: Nanoshells vs Cancer Cells; Sex Pheromone of Cockroach Identified; New Fluorophores Unmasked by Chemical Reaction. (ROJResAdv) King, A. G. September, 1274–1278. Research Advances: Onions Battle Osteoporosis; New Weapon in War on TB; Smokers Beware: Study Shows Increased Cadmium Levels in the Brain May Cause Severe Neurological Disorders. (ROJResAdv) King, A. G. August, 1114–1116. Rotor-shaped Cyclopentadienyltetraphenylcyclobutadienecobalt. An Advanced Inorganic Experiment. MacFarland, D. K.; Gorodetzer, R. January, 109–110. A Set of Hands-On Exercises on Conformational Analysis. Pellegrinet, S. C.; Mata, E. G. January, 73–74.

www.JCE.DivCHED.org


The Sharpless Asymmetric Dihydroxylation in the Organic Chemistry Majors Laboratory. Nichols, C. J.; Taylor, M. R. January, 105–108. A Solvent-Free Baeyer–Villiger Lactonization for the Undergraduate Organic Laboratory: Synthesis of γ-t-Butyl- ε -caprolactone. Esteb, J. J.; Hohman, J. N.; Schlamadinger, D. E.; Wilson, A. M. December, 1837–1838. Solvents and Solvent Effects in Organic Chemistry, Third Edition (by Christian Reichardt). (BMR) Pagni, R. M. March, 382–383. Stereogenic Centers and Axes: A Comparison of the Chiral Topologies Available to Cabcd and abC=C=Ccd. Lloyd-Williams, P.; Giralt, E. July, 1031–1033. Strategic Applications of Named Reactions in Organic Synthesis: Background and Detailed Mechanisms (by László Kürti and Barbara Czakó). (BMR) Holman, R. W. December, 1780–1782. Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical– Computational Project. Baudry, J.; Hergenrother, P. J. June, 890–894. A Substitute for “Bromine in Carbon Tetrachloride". Daley, J. M.; Landolt, R. G. January, 120–121. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. Getzler, Y. D.; Schmidt, J. A.; Coates, G. W. April, 621–624. Synthesis of Meso-Octamethylporphyrinogen: An Undergraduate Laboratory Mini-Scale Experiment in Organic Heterocyclic Chemistry. (ML) Sobral, A. J. April, 618–620. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379. Understanding Rotation about a C=C Double Bond. Barrows, S. E.; Eberlein, T. H. September, 1329– 1333. Use Correct Projection. (Letter) Kapoor, V. K. June, 838. Use of Enzymes in Organic Synthesis: Reduction of Ketones by Baker’s Yeast Revisited. Patterson, J.; Sigurdsson, S. T. July, 1049–1050. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583. Using Building-Block Puzzles To Practice Drawing Organic Mechanisms. Erdik, E. September, 1325–1326. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522. “You’re Repulsive!”—Teaching VSEPR in a Not-So-Elegant Way. Liu, R. S. April, 558–560.

Organometallics A Convenient Method for Dispensing Organometallic Reagents. (CET) Newton, T. A. June, 936. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. The Origin of the 18-Electron Rule. (ASK) Jensen, W. B. January, 28. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Rotor-shaped Cyclopentadienyltetraphenylcyclobutadienecobalt. An Advanced Inorganic Experiment. MacFarland, D. K.; Gorodetzer, R. January, 109–110. Synthesis of an Epoxide Carbonylation Catalyst: Explo-

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ration of Contemporary Chemistry for Advanced Undergraduates. Getzler, Y. D.; Schmidt, J. A.; Coates, G. W. April, 621–624.

Oxidation / Reduction Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Chemistry of Durable and Regenerable Biocidal Textiles. (POC) Sun, G.; Worley, S. D. January, 60–64. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. Reed, N. A.; Rapp, R. D.; Hamann, C. S.; Artz, P. G. July, 1053–1054. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Concerning “A Reaction That Takes Place in Beakers but Not in Conical Flasks: A Catalysis-Related Demonstration” (re J. Chem. Educ. 2004, 81, 364). (Letter) Espenson, J. H. April, 527. The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. FríasFerrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. September, 1395–1398. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. DeMeo, S. August, 1219– 1222. A Methane Balloon Inflation Chamber. (TD) Czerwinski, C. J.; Cordes, T. J. February, 248–250. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) White, L. L.; Kittredge, K. W. July, 1055– 1056. A Modified Demonstration of the Catalytic Decomposition of Hydrogen Peroxide. (TD) Trujillo, C. A. June, 855. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. Procedure for Decomposing a Redox Reaction into HalfReactions. Fishtik, I.; Berka, L. H. April, 553–557. Reduction of Ilmenite with Charcoal. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 456–459. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. A Solvent-Free Baeyer–Villiger Lactonization for the Undergraduate Organic Laboratory: Synthesis of γ-t-Butyl- ε -caprolactone. Esteb, J. J.; Hohman, J. N.; Schlamadinger, D. E.; Wilson, A. M. December, 1837–1838. Spectrophotometric Determination of the Hole Concentration in the Superconductor YBa2Cu3O7᎑x: An Undergraduate Experiment. Hoppé, J. I.; Malati, M. A. February, 299–301. Steel Wool and Oxygen: A Look at Kinetics. Gordon, J. S.; Chancey, K. July, 1065–1067. Surface pKa of Self-Assembled Monolayers. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. May, 779– 781. Trusty or Rusty? Oxidation Rate of Nails. (JCE Classroom Activity) Wright, S. W. November, 1648A– 1648B.


1935

Subject Index • Volume 82 • 2005 Oxidation State Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Valence, Covalence, Hypervalence, Oxidation State, and Coordination Number. Smith, D. W. August, 1202– 1204.

Oxygen The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) Oliver-Hoyo, M. T.; Switzer, W. L., III. February, 251–254. Photosystem II Oxygen-Evolving Complex. (JCE Featured Molecules) Coleman, W. F. May, 800.

Periodicity / Periodic Table Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Characterization and Classification of Lanthanides by Multivariate-Analysis Methods. Horovitz, O.; Sârbu, C. March, 473–483. Designing Element T-shirts: Spelling with the Periodic Table. Palmer, J.; Brosnick, L. April, 517. Finding Chemical Anchors in the Kitchen. (CFK) Haim, L. February, 228–230. From Masurium to Trinacrium: The Troubled Story of Element 43. Zingales, R. February, 221–227. Fully Exploiting the Potential of the Periodic Table through Pattern Recognition. Schultz, E. November, 1649–1657. More Elementary Riddles. Cunningham, K. D. April, 539–540. More on Element 43. (Letter) Kauffman, G. B. September, 1310. Predicting the Atomic Weights of the Trans-Lawrencium Elements: A Novel Application of Dobereiner’s Triads. Ibrahim, S. A. November, 1658–1659. Properties of the Lanthanide Metals: Correlations and Discontinuities (re J. Chem. Educ. 2005, 82, 473– 483). (Letter) Laing, M. November, 1623. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Some Footnotes on the History of Masurium. (Letter) Wagner, H. J. September, 1309. Trends in Ionization Energy of Transition-Metal Elements. Matsumoto, P. S. November, 1660–1661.


Phosphorus Analysis of Phosphoric Acid Content in Popular Carbonated Drinks (re J. Chem. Educ. 1996, 73, 1173–1174). (Letter) Rodgers, J.; Koether, M. C. October, 1471. Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. Cerrada, E.; Laguna, M. April, 630–633.

Photochemistry

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Phases / Phase Transitions and Diagrams


3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. November, 1741–1742. ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363. ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. An Animated Interactive Overview of Molecular Symmetry. (JCE WebWare) Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1742–1743. Applying Chemical Potential and Partial Pressure Concepts To Understand the Spontaneous Mixing of Helium and Air in a Helium-Inflated Balloon. Lee, J.; Yoo, H.; Park, J. S.; Hwang, K.; Kim, J. S. February, 288–290. Bond Length Dependence on Quantum States as Shown by Spectroscopy. Lim, K. F. January, 145–149. The Chemical Bond: A Fundamental Quantum–Mechanical Picture (Springer Series in Chemical Physics) (by Tadamassa Shida). (BMR) Pounds, A. J. July, 1000–1001. Chemistry and Luminescence (re J. Chem. Educ. 2005, 82, 49). (Letter) Cintas, P. June, 837. Chemistry and Luminescence—Author Reply (re J. Chem. Educ. 2005, 82, 49). (Letter) O’Hara, P. B. June, 837. Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. Chiral Crystallization of Ethylenediamine Sulfate. Koby, L.; Ningappa, J. B.; Dakessian, M.; Cuccia, L. A. July, 1043–1045. Circular Birefringence and Circular Dichroism Simulation. (JCE SymMath) Brown, Z.; Starkey, R. July, 1100. Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) Whisnant, D. M.; Lever, L. S.; Howe, J. J. February, 334. Colors in Liquid Crystals. (JCE Classroom Activity) Lisensky, G. C.; Boatman, E. M. September, 1360A– 1360B. Comments on Purser’s Article: “Lewis Structures are Models for Predicting Molecular Structure, Not Electronic Structure” (re J. Chem. Educ. 1999, 76, 1013– 1018). (Letter) Weinhold, F. A. April, 527–528. Computing Liquid–Vapor Phase Diagrams for Non-Ideal Binary Mixtures. (JCE SymMath) Chen, F. M. July, 1100. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Correction to “Henry’s Law: A Retrospective” (re J. Chem. Educ. 2004, 81, 1647–1652). (Correction) Rosenberg, R. M.; Peticolas, W. January, 38. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Data Analysis (Damped Oscillations) Using the Genfit Function. (JCE SymMath) Poshusta, R. D. July, 1101. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. June, 924–925. Demonstrating Energy Migration in Coupled Oscillators: A Central Concept in the Theory of Unimolecular Reactions. (TD) Marcotte, R. E. October, 1530–1531. Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. A Device To Emulate Diffusion and Thermal Conductivity Using Water Flow. (TD) Blanck, H. F. October, 1523–1529. Displacements of Brownian Particles in Terms of Marian von Smoluchowski’s Heuristic Model. Klein, H.; Woermann, D. November, 1642–1644. Does a Photochemical Reaction Have a Kinetic Order? (re J. Chem. Educ. 2003, 80, 1074–1077). (Letter) Toby, S. January, 37. Does a Photochemical Reaction Have a Kinetic Order?— Author Reply (re J. Chem. Educ. 2003, 80, 1074– 1077). (Letter) Hippler, M. January, 37. Dynamic and Equilibrium Adsorption Experiments. Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Da Silva, F. A.; Silva, C. M. June, 919–923.

Comparative Methylation of 1,8-Dihydroxy-9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. Sereda, G. December, 1839–1840. I Screen, You Screen, We All Screen for Phenolics. (JCE Classroom Activity) Sady, M. B. December, 1808A– 1808B. Research Advances: Horseradish, Peroxide Mixture May End War of the Noses; Even Low Levels of Benzene Are Hemotoxic; New “Nuclear Battery” Runs 10 Years, 10 Times More Powerful. (ROJResAdv) King, A. G. November, 1594–1597.

Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. Colors in Liquid Crystals. (JCE Classroom Activity) Lisensky, G. C.; Boatman, E. M. September, 1360A– 1360B. Computing Liquid–Vapor Phase Diagrams for Non-Ideal Binary Mixtures. (JCE SymMath) Chen, F. M. July, 1100.

Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. December, 1815–1819. Hydrolysis of Pentaamminechlorocobalt(III): A Unified Mechanistic View. González-Ferrer, G.; Martínez López, M. November, 1671–1673. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. On Teaching Ionic Activity Effects: What, When, and Where? de Levie, R. June, 878–884. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. May, 782–786. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554.

Physical Chemistry

Phenols

Chemiluminescent Oscillating Demonstrations: The Chemical Buoy, the Lighting Wave, and the Ghostly Cylinder. (TD) Prypsztejn, H. E. January, 53–54. Does a Photochemical Reaction Have a Kinetic Order? (re J. Chem. Educ. 2003, 80, 1074–1077). (Letter) Toby, S. January, 37. Does a Photochemical Reaction Have a Kinetic Order?— Author Reply (re J. Chem. Educ. 2003, 80, 1074– 1077). (Letter) Hippler, M. January, 37. Fifty Ways To Make Boric Acid (with Apologies to Paul Simon). Davis, C. M. April, 541. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Soltzberg, L. J.; Brown, V. April, 526. Note on Photocatalytic Destruction of Organic Wastes: Methyl Red as a Substrate—Author Reply (re J. Chem. Educ. 2001, 78, 775–777). (Letter) Herrera-Melián, J. A.; Araña Mesa, J. April, 526. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Quantum Dots: An Experiment for Physical or Materials Chemistry. Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. November, 1700–1702. Testing for Ultraviolet Toxicity Using Fungi. Vital, M.; Esperón, P. June, 926–929. Turning on the Light: Lessons from Luminescence. O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 49– 52. Turning on the Light. (JCE Classroom Activity) O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 48A–48B.

pH

“You’re Repulsive!”—Teaching VSEPR in a Not-So-Elegant Way. Liu, R. S. April, 558–560.

Crystallographic Study of Manganese(III) Acetylacetonate: An Advanced Undergraduate Project with Unexpected Challenges. Geremia, S.; Demitri, N. March, 460–465. Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) Oliver-Hoyo, M. T.; Switzer, W. L., III. February, 251–254. The q/T Paradox: Which “Contains More Heat”, a Cup of Coffee at 95 °C or a Liter of Icewater? (TD) Vitz, E.; Schuman, M. J. June, 856–860. Reduction of Ilmenite with Charcoal. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 456–459. Rotational Mobility in a Crystal Studied by Dielectric Relaxation Spectroscopy. An Experiment for the Physical Chemistry Laboratory. Dionísio, M.; Diogo, H. P.; Farinha, J. P.; Moura-Ramos, J. J. September, 1355–1360. Some Insights Regarding a Popular Introductory Gas Law Experiment. DePierro, E.; Garafalo, F. August, 1194–1196. Sublimation of Iodine at Various Pressures. Mutlipurpose Experiments in Inorganic and Physical Chemistry. Leenson, I. A. February, 241–245. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100.


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www.JCE.DivCHED.org

www.JCE.DivChed.org/Journal/Search/ E = mc 2 for the Chemist: When Is Mass Conserved? Treptow, R. S. November, 1636–1641. The Effect of Anharmonicity on Diatomic Vibration: A Spreadsheet Simulation. (JCE WebWare) Lim, K. F.; Coleman, W. F. August, 1263–1264. Electrochemical Fabrication of Metallic Quantum Wires. Tao, N. May, 720–726. Electrochemistry at Nanometer-Scaled Electrodes. Watkins, J. J.; Zhang, B.; White, H. S. May, 712– 719. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. Enthalpy of Vaporization by Gas Chromatography: A Physical Chemistry Experiment. Ellison, H. R. July, 1086–1088. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. FríasFerrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. September, 1395–1398. Equilibria That Shift Left upon Addition of More Reactant. Lacy, J. E. August, 1192–1193. Equilibrium Constants and Water Activity. (Letter) Keeports, D. July, 999. Experiences and Reflections about Teaching Atomic Structure in a Jigsaw Classroom in Lower Secondary School Chemistry Lessons. (CER) Eilks, I. February, 313–319. Exploring the Uncertainty Principle. (JCE SymMath) Chen, F. M. July, 1101. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) Kwan, E. E. July, 1026–1030. First-Order or Second-Order Kinetics? A Monte Carlo Answer. Tellinghuisen, J. November, 1709–1714. Further Analysis of Boiling Points of Small Molecules, CHwFxClyBrz. Beauchamp, G. December, 1842–1845. Gas Permeability of Polymers (re J. Chem. Educ. 2005, 82, 288). (Letter) Lunelli, B. October, 1471–1472. Gas Permeability of Polymers—Author Reply (re J. Chem. Educ. 2005, 82, 288). (Letter) Lee, J. October, 1472. Gedanken Experiments. (EHST) Mason, D. S. November, 1593. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. Heinz, W. F.; Hoh, J. H. May, 695–703. Global Least-Squares Analysis of the IR Rotation–Vibration Spectrum of HCl. Tellinghuisen, J. January, 150– 156. A Greener Approach for Measuring Colligative Properties. (GRN) McCarthy, S. M.; Gordon-Wylie, S. W. January, 116–119. Greenhouse Gases and Non-gray Behavior. (Letter) Jones, J. C. June, 837. Growth Kinetics and Modeling of ZnO Nanoparticles. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. May, 775–778. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. Improving Conceptions in Analytical Chemistry: ciVi = cfVf. Rodríguez-López, M.; Carrasquillo, A., Jr. September, 1327–1328. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557. Introducing JCE LivTexts: Physical Chemistry. (JCE LivTexts) Zielinski, T. J. December, 1880. An Introduction to Chemical Kinetics (by Margaret Robson Wright). (BMR) Elrod, M. J. January, 40–41. Introduction to Quantum Mechanics: in Chemistry, Material Science, and Biology (by S. M. Blinder). (BMR) Dunn, K. M. March, 383–386. An Introduction to Statistical Mechanics. (JCE SymMath) Francl, M. M. January, 175. Investigating the Photoelectric Effect Using LEDs and a Modular Spectroscope. Diaz, L.; Smith, C. A. June, 906–908. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? de Levie, R. June, 885–888. It Was a Very Good Year. (Editorial) Moore, J. W. November, 1591.

www.JCE.DivCHED.org


JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) Barrie, P. J. June, 958–959. Kmonodim, a Program for the Numerical Solution of the One-Dimensional Schrödinger Equation. Angeli, C.; Borini, S.; Cimiraglia, R. May, 795–800. Learning Molecular Geometry and Symmetry through Quantum Computations and Mathcad Exercises. (JCE SymMath) Chen, F. M. January, 174. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. A Low-Cost Experiment on Newtonian and NonNewtonian Fluids. Dolz, M.; Delegido, J.; Casanovas, A.; Hernández, M. March, 445–447. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. DeMeo, S. August, 1219– 1222. The Meaning of d-Orbital Labels. Ashkenazi, G. February, 323–324. Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392. Measuring Gas-Phase Basicities of Amino Acids Using an Ion Trap Mass Spectrometer. A Physical Chemistry Laboratory Experiment. Sunderlin, L. S.; Ryzhov, V.; Keller, L. M.; Gaillard, E. R. July, 1071–1073. Microscopic Description of Le Châtelier Principle. Novak, I. August, 1190–1191. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. Ahn, H.; Whitten, J. E. June, 909–911. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. Nantribology: Rubbing on a Small Scale. Dickinson, J. T. May, 734–742. The Nature of Hydrogen Bonding. (JCE Classroom Activity) Schultz, E. March, 400A–400B. A Networked NMR Spectrometer: Configuring a Shared Instrument. Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Kosinski, J.; Sinton, M. September, 1342–1344. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. Galembeck, S. E.; Caramori, G. F.; Romero, J. R. December, 1800–1804. No Problems with Q. (Letter) Lederer, R. August, 1149. ⁄ Nontypical Brønsted’s Acids and Bases. Micha lowski, T.; Rymanowski, M.; Pietrzyk, A. March, 470–472. A Note on Dalton’s Law: Myths, Facts, and Implementation. Missen, R. W.; Smith, W. R. August, 1197– 1201. On the Buoyancy of a Helium-Filled Balloon. Harriman, J. E. February, 246–247. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. April, 655–656. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. Romero, A.; Hernández, G.; Suárez, M. F. August, 1234–1236. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Positive and Negative Temperatures in a Two-Level System: Thermodynamic and Statistical–Mechanical Perspectives. (ACL) Masthay, M. B.; Fannin, H. B. June, 867–873. Procedure for Decomposing a Redox Reaction into HalfReactions. Fishtik, I.; Berka, L. H. April, 553–557. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) Celej, M. S.; Fidelio, G. D.; Dassie, S. A. January, 85–92. The q/T Paradox: Which “Contains More Heat”, a Cup of Coffee at 95 °C or a Liter of Icewater? (TD) Vitz, E.; Schuman, M. J. June, 856–860. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. June, 912–915. Quantum Dots: An Experiment for Physical or Materials Chemistry. Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. November, 1700–1702. Quantum Mechanics: A Conceptual Approach (by Hendrik F. Hameka). (BMR) Tuchler, M. January, 41– 43. Quantum States of Atoms and Molecules. (JCE LivTexts) Hanson, D. M.; Zielinski, T. J.; Harvey, E.; Sweeney, R. December, 1880.

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The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems. (2AP) Matsumoto, P. S. March, 406–407. Reaction to “The Concept of Ionic Strength Eighty Years after Its Introduction in Chemistry” (re J. Chem. Educ. 2004, 81, 750–753). (Letter) Glasser, L. February, 212. Reactions to “The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems” —Author Reply (J. Chem. Educ. 2005, 82, 406–407). (Letter) Matsumoto, P. S. August, 1150. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. March, 466–467. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. The Relation of Temperature to Energy Spreadsheet. (JCE WebWare) King, C. April, 656. The Relation of Temperature to Energy. King, C. June, 861–866. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973. Revisiting Millikan’s Oil-Drop Experiment. Pearson, E. F. June, 851–854. Robust Linear Regression Using Theil’s Method. (Letter) Glaister, P. October, 1472–1473. Rotational Mobility in a Crystal Studied by Dielectric Relaxation Spectroscopy. An Experiment for the Physical Chemistry Laboratory. Dionísio, M.; Diogo, H. P.; Farinha, J. P.; Moura-Ramos, J. J. September, 1355–1360. Safe Preparation of HCl and DCl for IR Spectroscopy. (ST) Furlong, W. R.; Grubbs, W. T. January, 124. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. November, 1697–1699. Self-Consistent Field Calculations on Atoms Using Excel. (ACL) Hoffman, G. G. September, 1418–1422. Self-Consistent Field Calculations Spreadsheet. (JCE WebWare) Hoffman, G. G. September, 1423–1424. Simple and Inexpensive Computer Interface to a Durrum Stopped-Flow Apparatus Tested Using the Iron(III)– Thiocyanate Reaction. (CBB) Hoag, C. M. December, 1823–1825. A Simple Low-Cost Lock-In Amplifier for the Laboratory. (TICI) Sengupta, S. K.; Farnham, J. M.; Whitten, J. E. September, 1399–1401. A Simple Reduction Process for the Normal Vibrational Modes Occurring in Linear Molecules. McInerny, W. J. January, 140–144. Single-Molecule Electronic Measurements with Metal Electrodes. Lindsay, S. May, 727–733. Single-Slit Diffraction and the Uncertainty Principle. Rioux, F. August, 1210. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209. Steel Wool and Oxygen: A Look at Kinetics. Gordon, J. S.; Chancey, K. July, 1065–1067. STEMming the Tide: Using Career Week Activities To Recruit Future Chemists. Bopegedera, A. M. October, 1505–1506. Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Sublimation of Iodine at Various Pressures. Mutlipurpose Experiments in Inorganic and Physical Chemistry. Leenson, I. A. February, 241–245. Surface pKa of Self-Assembled Monolayers. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. May, 779– 781. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100. SymMath, Fair Use, and Additions to the Collection. (JCE SymMath) Zielinski, T. J. January, 172–174. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. May, 765–768.


1937



Thermal Expansion: Using Calculator-Based Laboratory Technology To Observe the Anomalous Behavior of Water. Branca, M.; Soletta, I. April, 613–615. Thermodynamic Calculation of Work for Some Irreversible Processes. Bertrand, G. L. June, 874–877. Thermodynamics of the Relationship between Lattice Energy and Lattice Enthalpy. Jenkins, H. D. June, 950–952. Turning on the Light: Lessons from Luminescence. O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 49– 52. Turning on the Light. (JCE Classroom Activity) O’Hara, P. B.; Engelson, C.; St. Peter, W. January, 48A–48B. Understanding Least Squares through Monte Carlo Calculations. Tellinghuisen, J. January, 157–166. The Use of the Free, Open-Source Program Jmol To Generate an Interactive Web Site To Teach Molecular Symmetry. Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1736–1740. Using a Computer To Help Understand How Symmetry Principles Reduce Calculations. (JCE SymMath) Kijewski, L. January, 174. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. Salter, G.; Range, K.; Salter, C. February, 297–298. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918. What Is a Reaction Rate? Schmitz, G. July, 1091–1093. Where Should the Nuclei Be Located? Liu, Y.; Liu, Y.; Drew, M. February, 320–322.

Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918.

Physical Properties

Polymer Chemistry

The Art and Science of Light. An Interdisciplinary Teaching and Learning Experience. (IC) Bopegedera, A. M. January, 55–59. Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. Chiral Crystallization of Ethylenediamine Sulfate. Koby, L.; Ningappa, J. B.; Dakessian, M.; Cuccia, L. A. July, 1043–1045. A Demonstration of Sample Segregation. (TD) Fritz, M. D. February, 255–256. A Device To Emulate Diffusion and Thermal Conductivity Using Water Flow. (TD) Blanck, H. F. October, 1523–1529. Electrochemical Fabrication of Metallic Quantum Wires. Tao, N. May, 720–726. Enthalpy of Vaporization by Gas Chromatography: A Physical Chemistry Experiment. Ellison, H. R. July, 1086–1088. Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) Oliver-Hoyo, M. T.; Switzer, W. L., III. February, 251–254. Further Analysis of Boiling Points of Small Molecules, CHwFxClyBrz. Beauchamp, G. December, 1842–1845. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. Heinz, W. F.; Hoh, J. H. May, 695–703. Growth Kinetics and Modeling of ZnO Nanoparticles. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. May, 775–778. Hands On Plastics (re J. Chem. Educ. 2004, 81, 1309, 1312A). (Letter) Harris, H. H.; Harris, M. E. February, 209. More Elementary Riddles. Cunningham, K. D. April, 539–540. On the Buoyancy of a Helium-Filled Balloon. Harriman, J. E. February, 246–247. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. Some Insights Regarding a Popular Introductory Gas Law Experiment. DePierro, E.; Garafalo, F. August, 1194–1196. Sublimation of Iodine at Various Pressures. Mutlipurpose Experiments in Inorganic and Physical Chemistry. Leenson, I. A. February, 241–245. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090. Thermal Expansion: Using Calculator-Based Laboratory Technology To Observe the Anomalous Behavior of Water. Branca, M.; Soletta, I. April, 613–615.

ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363. ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. Chemistry of Durable and Regenerable Biocidal Textiles. (POC) Sun, G.; Worley, S. D. January, 60–64. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. Paddock, J. R.; Maghasi, A. T.; Heineman, W. R.; Seliskar, C. J. September, 1370–1371. The Origin of the Name “Nylon”. (ASK) Jensen, W. B. May, 676. Plastic Antibodies: Molecular Recognition with Imprinted Polymers. An Introductory Polymer Chemistry Laboratory Investigation. Rushton, G. T.; Furmanski, B. D.; Shimizu, K. D. September, 1374– 1377. Polymer Chemistry: Introduction to an Indispensable Science (by David M. Teegarden). (BMR) Matthews, M. S. February, 213–214. Polymers (Oxford Chemistry Primers No. 85) (by David Walton and J. Phillip Lorimer). (BMR) Shibata, J. H. April, 532–534. Research Advances: Children on School Buses May Face Increased Exposure to Diesel Pollution; Where Did All the Nitrogen Go?; Designer Wires. (ROJResAdv) King, A. G. October, 1434–1438. Research Advances: Dendritic Macromer Replaces Sutures in Cataract Surgery; Promising Polymer Therapy for Paralyzed Dogs; Compound in Smoke Provides the Spark for Germination. (ROJResAdv) King, A. G. March, 346–348. Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670. Research Advances: Mechanism of Copper Acquisition by Methanotrophs; Honey Bees Use Pheromone To Delay Behavioral Maturation; Liquid Crystal Cylinders. (ROJResAdv) King, A. G. June, 810–814. Research Advances: Nitric Oxide Synthase Reduces

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Cr(VI); The Chemistry of Popcorn: It’s All About “Pop-Ability”; Nanotubes May Help Heal Broken Bones; New Method Unites Organic Materials and Nanotechnology. (ROJResAdv) King, A. G. December, 1754–1759. Self-Assembled Colloidal Crystals: Visualizing Atomic Crystal Chemistry Using Microscopic Analogues of Inorganic Solids. Abrams, N. M.; Schaak, R. E. March, 450–452. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379. Toys in the Classroom. Sarquis, J. L.; Sarquis, A. M. October, 1450–1453.

Plant Chemistry Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. Exploration of the Chemistry of Plants: A General Education Course. (IC) Séquin, M. December, 1787– 1790. I Screen, You Screen, We All Screen for Phenolics. (JCE Classroom Activity) Sady, M. B. December, 1808A– 1808B. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. Isolation of Shikimic Acid from Star Aniseed. Payne, R.; Edmonds, M. K. April, 599–600. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598.

Polymerization Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. Introduction to Photolithography: Preparation of Microscale Polymer Silhouettes. Berkowski, K. L.; Plunkett, K. N.; Yu, Q.; Moore, J. S. September, 1365–1369. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. Paddock, J. R.; Maghasi, A. T.; Heineman, W. R.; Seliskar, C. J. September, 1370–1371. Plastic Antibodies: Molecular Recognition with Imprinted Polymers. An Introductory Polymer Chemistry Laboratory Investigation. Rushton, G. T.; Furmanski, B. D.; Shimizu, K. D. September, 1374– 1377. A Sensitive Nitrate Ion-Selective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) Bendikov, T. A.; Harmon, T. C. March, 439–441. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379.

Polonium Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727.


Potassium Potassium Hydroxide. (CLIP) Young, J. A. September, 1304. Potassium Nitrate. (CLIP) Young, J. A. September, 1305. The Relationship between Balancing Reactions and Reaction Lifetimes: A Consideration of the Potassium– Argon Radiometric Method for Dating Minerals. Howard, W. A. July, 1094–1098.

Potentiometry Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. May, 782–786.

Precipitation / Solubility Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Nantribology: Rubbing on a Small Scale. Dickinson, J. T. May, 734–742.

Problem Solving / Decision Making Chinese Students’ Opinions about “What is the Biggest Problem in Chemistry?”. (Letter) Mingjie, Z.; Qichao, Y. February, 210. Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) Whisnant, D. M.; Lever, L. S.; Howe, J. J. February, 334. COAChing Women To Succeed in Academic Careers in the Chemical Sciences. Richmond, G. L. March, 351– 353.

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Chemical Education: San Diego, March 12–17, 2005. Middlecamp, C. H.; Stone, K.; Muzzi, C. M. March, 355–361. ACS National Meeting. Program for the Division of Chemical Education: Washington, DC, August 28– September 1, 2005. Middlecamp, C. H.; Bergo, C. H.; Shanbhag, V. August, 1123–1130. ACS’s Adopt a Teacher Program. (EHST) Mason, D. S. March, 345. Are We Serious about Preparing Chemists for the 21st Century Workplace or Are We Just Teaching Chemistry? Kerr, S.; Runquist, O. February, 231–233. The Art and Science of Light. An Interdisciplinary Teaching and Learning Experience. (IC) Bopegedera, A. M. January, 55–59. Chemistry Teacher Connections. (EHST) Mason, D. S. June, 809. COAChing Women To Succeed in Academic Careers in the Chemical Sciences. Richmond, G. L. March, 351– 353. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) Kruse, R. A.; Roehrig, G. H. August, 1246–1250. Conant Award Interview: An Interview with Annis Hapkiewicz, 2005 Award Winner. (Award Address) JCE Editorial Staff. September, 1287–1291. Doing Science and Asking Questions II: An Exercise That Generates Questions. Middlecamp, C. H.; Nickel, A. L. August, 1181–1186. Education of Teachers for Excellence. (Editorial) Moore, J. W. August, 1111. Implementing the Professional Development Standards: A Research Department’s Innovative Masters Degree Program for High School Chemistry Teachers. Blasie, C. W.; Palladino, G. F. April, 567–570. An Industrial Chemistry Course That Optimizes the Value of Plant Tours. Hartman, J. S. February, 234– 239. Make Your Mark in Science. Creativity, Presenting, Publishing, and Patents. A Guide for Young Scientists (by Claus Ascheron and Angela Kickuth). (BMR) Kovac, J. D. September, 1313. Meeting Report: Chemistry Everywhere. A Brief Report on the 18th Biennial Conference on Chemical Education. Meints, C.; Burke, K. A. January, 17–20. Meeting Report: Teaching High School Chemistry as a Second Career. Summary of Presidential Symposium. Scharberg, M. A. September, 1281–1285. Molecular Visualization in Science Education: An Evaluation of an NSF-Sponsored Workshop. (CER) José, T.; Williamson, V. M. June, 937–943. News & Announcements. January, 33–35; February, 205–207; March, 377–379; April, 523–525; May, 679–681; June, 833–835; July, 993–995; August, 1145–1148; September, 1306–1308; October, 1467– 1470; November, 1620–1622; December, 1770– 1773. On-Site Reviews and Institutes To Assess and Strengthen Undergraduate Departments and Programs. (CUR) Karukstis, K. K.; Rowlett, R. April, 512–513. Science Days: An Interdisciplinary Outreach Program. (CFK) Flynn, N. E. October, 1483–1485. Techniques To Enhance Instructors’ Teaching Effectiveness with Chemistry Students Who Are Blind or Visually Impaired. Supalo, C. October, 1513–1518. Telling the Stories of Chemistry. Kitson, T. M. October, 1504. The Way of the Teacher (by J. M. Haile). (BMR) Kovac, J. D. October, 1476. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522.

Contemporary Moral Problems in Chemistry: Effect of Peer Presentations on Students’ Awareness of Science and Society Issues. (CER) White, H. B., III.; Brown, S. D.; Johnston, M. V. October, 1570–1576. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230. Cross-Proportions: A Conceptual Method for Developing Quantitative Problem-Solving Skills. Cook, E.; Cook, R. L. August, 1187–1189. Developing and Measuring Proficiency. (Editorial) Moore, J. W. April, 503. Education in Environmental Chemistry: Setting the Agenda and Recommending Action. A Workshop Report Summary. Zoller, U. August, 1237–1240. The Effects of Thinking Aloud Pair Problem Solving on High School Students’ Chemistry Problem-Solving Performance and Verbal Interaction. (CER) Jeon, K.; Huffman, D.; Noh, T. October, 1558–1564. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. February, 257–259. Imagination. (Editorial) Moore, J. W. May, 663. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. “It Gets Me to the Product”: How Students Propose Organic Mechanisms. (CER) Bhattacharyya, G.; Bodner, G. M. September, 1402–1407. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. Romero, A.; Hernández, G.; Suárez, M. F. August, 1234–1236. Positive and Negative Temperatures in a Two-Level System: Thermodynamic and Statistical–Mechanical Perspectives. (ACL) Masthay, M. B.; Fannin, H. B. June, 867–873. Qualitative Organic Analysis—In the Classroom and Laboratory. Finley, K. T. February, 240. The Reaction Quotient (Q) IS Useful After All (re J. Chem. Educ. 2005, 82, 406–407. (Letter) Silverstein, T. P. August, 1149. The Relationship between Balancing Reactions and Reaction Lifetimes: A Consideration of the Potassium– Argon Radiometric Method for Dating Minerals. Howard, W. A. July, 1094–1098. A Set of Hands-On Exercises on Conformational Analysis. Pellegrinet, S. C.; Mata, E. G. January, 73–74. A Simple Reduction Process for the Normal Vibrational Modes Occurring in Linear Molecules. McInerny, W. J. January, 140–144. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. Warnke, M. M.; Erickson, A. E.; Smith, E. T. July, 1082–1085. Sublimation of Iodine at Various Pressures. Mutlipurpose Experiments in Inorganic and Physical Chemistry. Leenson, I. A. February, 241–245.

Products of Chemistry Chemistry of Durable and Regenerable Biocidal Textiles. (POC) Sun, G.; Worley, S. D. January, 60–64. Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167. Pharmaceutical Applications of Ion-Exchange Resins. (POC) Elder, D. P. April, 575–587. Polypyrazolylborates: Scorpionates. (POC) Trofimenko, S. November, 1715–1720. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400.

Proteins / Peptides Amino Acid Complementarity: A Biochemical Exemplar of Stoichiometry for General and Health Sciences Chemistry. Vitz, E. July, 1013–1016. Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) Ship, N. J.; Zamble, D. B. December, 1805–1808. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. June, 924–925. Equilibrium Gel Filtration Chromatography for the Measurement of Protein–Ligand Binding in the Un-

Professional Development 2005 ACS Academic Employment Initiative. March, 367. ACS National Meeting. ACS Presidential Events: San Diego. Carroll, W. F., Jr. March, 364. ACS National Meeting. Presidential Events. Carroll, W. F., Jr. August, 1131. ACS National Meeting. Program for the Division of

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dergraduate Biochemistry Laboratory. Craig, D. B. January, 96–98. Fundamentals of Biomolecule Analysis by Electrospray Ionization Mass Spectrometry. An Instrumental Analysis Laboratory Experiment. Weinecke, A.; Ryzhov, V. January, 99–102. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Introduction to Protein and Peptide Analysis with Mass Spectrometry (by Fred Klink). (BMR) Harvey, D. T. July, 1003–1004. Nature: Small, Smaller, Smallest. A Pocket-size Device, Nano-size Electrical Conduits, and Amyloid Protein Fibril Structure. (ROJNature) Heinhorst, S.; Cannon, G. November, 1599–1600. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) Celej, M. S.; Fidelio, G. D.; Dassie, S. A. January, 85–92. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. January, 93–95.

Public Understanding / Outreach ACS National Meeting. ACS Presidential Events: San Diego. Carroll, W. F., Jr. March, 364. ACS National Meeting. CHED Events: San Diego. Sarquis, J. L.; Greer, S. March, 365. ACS National Meeting. CHED Events: Washington, DC. Greer, S. August, 1136–1137. ACS National Meeting. Presidential Events. Carroll, W. F., Jr. August, 1131. ACS Presidential Election: Changing Chemical Education for the 21st Century. Heinze, G. E. October, 1462. ACS Presidential Election: Chemical Education on a Global Scale—To the Elysian Fields. Kozarich, J. W. October, 1464. ACS Presidential Election: It’s Time To Re-Ignite Our Commitment to Science and Technology!. Hunt, C. T. October, 1463. Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. The Cartoon Guide to Chemistry (by Larry Gonick and Craig Criddle). (BMR) Harris, H. H. December, 1777–1778. Chemical Demonstrations as the Laboratory Component in Nonscience Majors Courses. An Outreach-Targeted Approach. Ophardt, C. E.; Applebee, M. S.; Losey, E. N. August, 1174–1177. Chemistry in the City: An Amendment (re J. Chem. Educ. 2003, 80, 850–856). (Letter) Fine, L. W. January, 38. Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. Chemistry, Creativity, Collaboration, and C60: An Interview with Harold W. Kroto. Cardellini, L. May, 751–755. Chinese Students’ Opinions about “What is the Biggest Problem in Chemistry?”. (Letter) Mingjie, Z.; Qichao, Y. February, 210. Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. Classroom Credit. (EHST) Jacobsen, E. K. February, 185. COAChing Women To Succeed in Academic Careers in the Chemical Sciences. Richmond, G. L. March, 351– 353. Colors in Liquid Crystals. (JCE Classroom Activity) Lisensky, G. C.; Boatman, E. M. September, 1360A– 1360B. Communicating Science to the Public through a University–Museum Partnership. Payne, A. C.; deProphetis, W. A.; Ellis, A. B.; Derenne, T. G.; Zenner, G. M.; Crone, W. C. May, 743–750. Communicating the Importance of Undergraduate Research to Legislators. (CUR) Karukstis, K. K. September, 1279–1280. Community-Based Research. A New Paradigm for Undergraduate Research in the Sciences. (CUR) Karukstis, K. K. January, 15–16. Contemporary Moral Problems in Chemistry: Effect of Peer Presentations on Students’ Awareness of Science


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and Society Issues. (CER) White, H. B., III.; Brown, S. D.; Johnston, M. V. October, 1570–1576. Designing Element T-shirts: Spelling with the Periodic Table. Palmer, J.; Brosnick, L. April, 517. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) Wally, L. M.; Levinger, N. E.; Grainger, D. W. October, 1489–1495. The Fizz-Keeper: A Useful Science Tool. Williams, J. P.; Van Natta, S.; Knipp, R. October, 1454–1457. The Fly in the Ointment: 70 Fascinating Commentaries on the Science of Everyday Life (by Joe Schwarcz). (BMR) Conover, W. December, 1777. Freeing Information. (Editorial) Moore, J. W. January, 7. Global Leadership in Science and Technology. (Editorial) Moore, J. W. June, 807. Good Chemical Measurements, Good Public Policies. (Commentary) Faulkner, L. R. February, 190–193. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. The Joy of Chemistry: The Amazing Science of Familiar Things (by Cathy Cobb and Monty L. Fetterolf ). (BMR) Matthews, M. S. October, 1475. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. Barreto, M. C. January, 103–104. Meeting Report: Teaching High School Chemistry as a Second Career. Summary of Presidential Symposium. Scharberg, M. A. September, 1281–1285. National Chemistry Week 2005: Cover Feature. Soap Films and the Joy of Bubbles. Saecker, M. E. October, 1447. National Chemistry Week 2005: The Joy of Toys. JCE Resources for Chemistry and Toys. Jacobsen, E. K. October, 1443–1446. Nature: Environmental Problems and New Hope for the Treatment of Malaria. (ROJNature) Heinhorst, S.; Cannon, G. February, 186–188. News from Online: Toying with Chemistry. (ROJOnline) Harris, J.; Kehoe, S. October, 1458– 1460. The Oxidation of Iron in a Gel Using Consumer Chemicals. (TD) Wright, S. W.; Folger, M. R.; Quinn, R. P. November, 1633–1635. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Reaction to “Something Might Be Gaining on Us” (re J. Chem. Educ. 2004, 81, 1079). (Letter) Dybowski, C. R. February, 210–211. Report: Celebrate Earth Day with ACS. Jacobsen, E. K. March, 354. Report: CHED Outreach Efforts. Hoffman, M. Z. September, 1302. Research Advances: Cars of the Future—Powered by Poison?; Prehistoric Beverage Choices; Health Benefits of Chamomile. (ROJResAdv) King, A. G. April, 506– 510. Research Advances: Children on School Buses May Face Increased Exposure to Diesel Pollution; Where Did All the Nitrogen Go?; Designer Wires. (ROJResAdv) King, A. G. October, 1434–1438. Research Advances: Horseradish, Peroxide Mixture May End War of the Noses; Even Low Levels of Benzene Are Hemotoxic; New “Nuclear Battery” Runs 10 Years, 10 Times More Powerful. (ROJResAdv) King, A. G. November, 1594–1597. Research Advances: Nitric Oxide Synthase Reduces Cr(VI); The Chemistry of Popcorn: It’s All About “Pop-Ability”; Nanotubes May Help Heal Broken Bones; New Method Unites Organic Materials and Nanotechnology. (ROJResAdv) King, A. G. December, 1754–1759. Science Days: An Interdisciplinary Outreach Program. (CFK) Flynn, N. E. October, 1483–1485. Scientists and Public Policy. (Editorial) Moore, J. W. February, 183. Service-Learning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. Esson, J. M.; Stevens-Truss, R.; Thomas, A. August, 1168–1173.

STEMming the Tide: Using Career Week Activities To Recruit Future Chemists. Bopegedera, A. M. October, 1505–1506. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. The Student-to-Student Chemistry Initiative: The Impact of Chemistry Demonstration Programs Presented by High School Students at Elementary Schools. Voegel, P. D.; Quashnock, K. A.; Heil, K. M. April, 634–636. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400. Teaching Science Amid Controversy. (Editorial) Moore, J. W. September, 1271. Telling the Stories of Chemistry. Kitson, T. M. October, 1504. Toys in the Classroom. Sarquis, J. L.; Sarquis, A. M. October, 1450–1453. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583.

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with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. December, 1815–1819. The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. Seney, C. S.; Sinclair, K. V.; Bright, R. M.; Momoh, P. O.; Bozeman, A. D. December, 1826–1829. Electrochemistry at Nanometer-Scaled Electrodes. Watkins, J. J.; Zhang, B.; White, H. S. May, 712– 719. Equilibrium Gel Filtration Chromatography for the Measurement of Protein–Ligand Binding in the Undergraduate Biochemistry Laboratory. Craig, D. B. January, 96–98. An Experimental Introduction to Interlaboratory Exercises in Analytical Chemistry. Puignou, L.; Llauradó, M. July, 1079–1081. Exploring Chemical Analysis, 3rd Edition (by Daniel C. Harris). (BMR) Steehler, J. K. May, 685. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. Heinz, W. F.; Hoh, J. H. May, 695–703. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. Improving Conceptions in Analytical Chemistry: ciVi = cfVf. Rodríguez-López, M.; Carrasquillo, A., Jr. September, 1327–1328. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 453–455. Investigating the Photoelectric Effect Using LEDs and a Modular Spectroscope. Diaz, L.; Smith, C. A. June, 906–908. Kilogram and the Mole Redux. (Letter) Karol, P. J. February, 212. A LED Microtiter Plate Reader. Gordon, J. S.; Tye, S. June, 903–905. Lipid Extraction and Cholesterol Quantification: A Simple Protocol. Barreto, M. C. January, 103–104. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. Paddock, J. R.; Maghasi, A. T.; Heineman, W. R.; Seliskar, C. J. September, 1370–1371. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. DeMeo, S. August, 1219– 1222. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Positive and Negative Temperatures in a Two-Level System: Thermodynamic and Statistical–Mechanical Perspectives. (ACL) Masthay, M. B.; Fannin, H. B. June, 867–873. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. June, 912–915.

Qualitative Analysis Bond Length Dependence on Quantum States as Shown by Spectroscopy. Lim, K. F. January, 145–149. Fractional Distillation of Air and Other Demonstrations with Condensed Gases. (TD) Oliver-Hoyo, M. T.; Switzer, W. L., III. February, 251–254. NMR Analysis of Unknowns: An Introduction to 2D NMR Spectroscopy. Alonso, D. E.; Warren, S. E. September, 1385–1386. Organic Spectroscopy Laboratory: Utilizing IR and NMR in the Identification of an Unknown Substance. Glagovich, N. M.; Shine, T. D. September, 1382– 1384. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667– 1670. Presumptive and Confirmatory Drug Tests. Anderson, C. December, 1809–1810. Qualitative Organic Analysis—In the Classroom and Laboratory. Finley, K. T. February, 240. Realizing Workplace Skills in Instrumental Analysis. Kalivas, J. H. June, 895–897. Screening Technique for Lead and Cadmium in Toys and Other Materials Using Atomic Absorption Spectroscopy. Brouwer, H. April, 611–612. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. A Substitute for “Bromine in Carbon Tetrachloride". Daley, J. M.; Landolt, R. G. January, 120–121. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735.

Quantitative Analysis Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. ColladoSánchez, C.; Hernández-Brito, J. J.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. February, 271–273. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. Bracken, J. D.; Tietz, D. May, 762–764. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. June, 901–902. Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) Alibrandi, G.; D’Aliberti, S.; Coppolino, S.; Villari, A.; Micali, N. March, 442– 444. A Closer Look at Acid–Base Olfactory Titrations. Neppel, K.; Oliver-Hoyo, M. T.; Queen, C.; Reed, N. April, 607–610. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230. A Demonstration of Sample Segregation. (TD) Fritz, M. D. February, 255–256. Determination of Hypochlorite in Bleaching Products


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A Quantitative Examination of Multiple Methods for Standardizing a Dilute Hydrochloric Acid Solution in an Undergraduate Chemistry Laboratory. Meagher, N. E.; Bowens, D. B.; Clark, B. S. March, 428–434. Realizing Workplace Skills in Instrumental Analysis. Kalivas, J. H. June, 895–897. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. March, 466–467. Reduction of Ilmenite with Charcoal. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 456–459. Revisiting Millikan’s Oil-Drop Experiment. Pearson, E. F. June, 851–854. The Same or Not the Same: Equivalence as an Issue in Educational Research. (CER) Lewis, S. E.; Lewis, J. E. September, 1408–1412. A Sensitive Nitrate Ion-Selective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) Bendikov, T. A.; Harmon, T. C. March, 439–441. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. Bazzi, A.; Kreuz, B.; Wuokila, J.; Maqboul, A. March, 435–438. Sequential-Injection Analysis: Principles, Instrument Construction, and Demonstration by a Simple Experiment. (TICI) Economou, A.; Tzanavaras, P. D.; Themelis, D. G. December, 1820–1822. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. February, 282–285. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. Johnson, A. R.; McQueen, T. M.; Rodolfa, K. T. March, 408–414. Synthesis and Analysis of Copper Hydroxy Double Salts. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. November, 1662. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. May, 782–786.

(BMR) Massa, L. October, 1476–1478. Quantum Dots: An Experiment for Physical or Materials Chemistry. Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. November, 1700–1702. Quantum Mechanics: A Conceptual Approach (by Hendrik F. Hameka). (BMR) Tuchler, M. January, 41– 43. Quantum States of Atoms and Molecules. (JCE LivTexts) Hanson, D. M.; Zielinski, T. J.; Harvey, E.; Sweeney, R. December, 1880. Report: Einstein Revisited. Fine, L. W. November, 1601– 1608. Self-Consistent Field Calculations on Atoms Using Excel. (ACL) Hoffman, G. G. September, 1418–1422. A Simple Reduction Process for the Normal Vibrational Modes Occurring in Linear Molecules. McInerny, W. J. January, 140–144. Single-Slit Diffraction and the Uncertainty Principle. Rioux, F. August, 1210. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100. Using a Computer To Help Understand How Symmetry Principles Reduce Calculations. (JCE SymMath) Kijewski, L. January, 174. Where Should the Nuclei Be Located? Liu, Y.; Liu, Y.; Drew, M. February, 320–322.

Quantum Chemistry

First-Order or Second-Order Kinetics? A Monte Carlo Answer. Tellinghuisen, J. November, 1709–1714. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. Robust Linear Regression Using Theil’s Method. (Letter) Glaister, P. October, 1472–1473. What Is a Reaction Rate? Schmitz, G. July, 1091–1093.

Radon Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727.

Raman Spectroscopy Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. June, 912–915.

Rate Law

The Chemical Bond: A Fundamental Quantum–Mechanical Picture (Springer Series in Chemical Physics) (by Tadamassa Shida). (BMR) Pounds, A. J. July, 1000–1001. Comments on Purser’s Article: “Lewis Structures are Models for Predicting Molecular Structure, Not Electronic Structure” (re J. Chem. Educ. 1999, 76, 1013– 1018). (Letter) Weinhold, F. A. April, 527–528. Correction to “A Model for the Chemical Bond” (re J. Chem. Educ. 2004, 81, 427–435). (Correction) Magnasco, V. September, 1311. Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. Electrochemical Fabrication of Metallic Quantum Wires. Tao, N. May, 720–726. Exploring the Uncertainty Principle. (JCE SymMath) Chen, F. M. July, 1101. Fundamentals of Quantum Chemistry (Complementary Science Series), Second Edition (by James E. House). (BMR) Tuchler, M. July, 1002–1003. Introduction to Quantum Mechanics: in Chemistry, Material Science, and Biology (by S. M. Blinder). (BMR) Dunn, K. M. March, 383–386. Investigating the Invisible: Attenuation of Radio Waves. (JCE Classroom Activity) Smith, A. A.; Smith, C. A. April, 560A–560B. It Was a Very Good Year. (Editorial) Moore, J. W. November, 1591. Kmonodim, a Program for the Numerical Solution of the One-Dimensional Schrödinger Equation. Angeli, C.; Borini, S.; Cimiraglia, R. May, 795–800. Learning Molecular Geometry and Symmetry through Quantum Computations and Mathcad Exercises. (JCE SymMath) Chen, F. M. January, 174. The Meaning of d-Orbital Labels. Ashkenazi, G. February, 323–324. Modern Spectroscopy, 4th Edition (by J. Michael Hollas). (BMR) Castner, E. W., Jr. January, 43–44. The Physics Teacher: Black Boxes, Frozen Lakes, and What = mc 2. (ROJPhysTea) Clark, R. W. November, 1611– 1612. Quantal Density Functional Theory (by Viraht Sahni).

www.JCE.DivCHED.org

Reactions An Azulene-Based Discovery Experiment: Challenging Students To Watch for the “False Assumption”. Garner, C. M. November, 1686–1688. Chemistry Comes Alive!, Volume 7. Abstract of Special Issue 32, a CD-ROM of Flames and Explosions. (JCE Software) Bain, R.; Jacobsen, J. J.; Maynard, J. H.; Moore, J. W. July, 1102–1104. Chemistry of Durable and Regenerable Biocidal Textiles. (POC) Sun, G.; Worley, S. D. January, 60–64. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. Reed, N. A.; Rapp, R. D.; Hamann, C. S.; Artz, P. G. July, 1053–1054. Comparative Methylation of 1,8-Dihydroxy-9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. Sereda, G. December, 1839–1840. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Demonstrating Energy Migration in Coupled Oscillators: A Central Concept in the Theory of Unimolecular Reactions. (TD) Marcotte, R. E. October, 1530–1531. The Determination of the Percent of Oxygen in Air Using a Gas Pressure Sensor. Gordon, J. S.; Chancey, K. February, 286–287. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) Kwan, E. E. July, 1026–1030. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave,

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G. W.; Raston, C. L. March, 468–469. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. DeMeo, S. August, 1219– 1222. A Methane Balloon Inflation Chamber. (TD) Czerwinski, C. J.; Cordes, T. J. February, 248–250. Procedure for Decomposing a Redox Reaction into HalfReactions. Fishtik, I.; Berka, L. H. April, 553–557. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. A Simple and Easy-To-Learn Chart of the Main Classes of Inorganic Compounds and Their Acid–Base Reactions. Sereda, G. November, 1645–1648. Spectrophotometric Determination of the Hole Concentration in the Superconductor YBa2Cu3O7᎑x: An Undergraduate Experiment. Hoppé, J. I.; Malati, M. A. February, 299–301. A Substitute for “Bromine in Carbon Tetrachloride". Daley, J. M.; Landolt, R. G. January, 120–121. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735.

Reactive Intermediates Chemistry of Durable and Regenerable Biocidal Textiles. (POC) Sun, G.; Worley, S. D. January, 60–64. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Demonstrating Energy Migration in Coupled Oscillators: A Central Concept in the Theory of Unimolecular Reactions. (TD) Marcotte, R. E. October, 1530–1531. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? de Levie, R. June, 885–888. Using Building-Block Puzzles To Practice Drawing Organic Mechanisms. Erdik, E. September, 1325–1326.

Receptors Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039.

Resources for Student Assessment Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512.

Rhenium More on Element 43. (Letter) Kauffman, G. B. September, 1310.

Reports from Other Journals: Nature Nature: Environmental Problems and New Hope for the Treatment of Malaria. (ROJNature) Heinhorst, S.; Cannon, G. February, 186–188. Nature: Small, Smaller, Smallest. A Pocket-size Device,


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Subject Index • Volume 82 • 2005 Nano-size Electrical Conduits, and Amyloid Protein Fibril Structure. (ROJNature) Heinhorst, S.; Cannon, G. November, 1599–1600.

Reports from Other Journals: News from Online News from Online: Toying with Chemistry. (ROJOnline) Harris, J.; Kehoe, S. October, 1458– 1460.

Reports from Other Journals: Research Advances Research Advances: A New Approach to Natural Product Identification; Acrylamide in French Fries; Selectively Sensing Mercury with Oligonucleotide-Based Detectors. (ROJResAdv) King, A. G. January, 10–14. Research Advances: Cars of the Future—Powered by Poison?; Prehistoric Beverage Choices; Health Benefits of Chamomile. (ROJResAdv) King, A. G. April, 506– 510. Research Advances: Children on School Buses May Face Increased Exposure to Diesel Pollution; Where Did All the Nitrogen Go?; Designer Wires. (ROJResAdv) King, A. G. October, 1434–1438. Research Advances: Dendritic Macromer Replaces Sutures in Cataract Surgery; Promising Polymer Therapy for Paralyzed Dogs; Compound in Smoke Provides the Spark for Germination. (ROJResAdv) King, A. G. March, 346–348. Research Advances: Designing Dendrimers To Offer Micelle-type Nanocontainers; Optical Biosensor for Glucose Possible through Biocatalytic Nanoparticle Growth; Carbon Nanotubes and Human Cells? (ROJResAdv) King, A. G. May, 666–670. Research Advances: Horseradish, Peroxide Mixture May End War of the Noses; Even Low Levels of Benzene Are Hemotoxic; New “Nuclear Battery” Runs 10 Years, 10 Times More Powerful. (ROJResAdv) King, A. G. November, 1594–1597. Research Advances: Mechanism of Copper Acquisition by Methanotrophs; Honey Bees Use Pheromone To Delay Behavioral Maturation; Liquid Crystal Cylinders. (ROJResAdv) King, A. G. June, 810–814. Research Advances: Nanoshells vs Cancer Cells; Sex Pheromone of Cockroach Identified; New Fluorophores Unmasked by Chemical Reaction. (ROJResAdv) King, A. G. September, 1274–1278. Research Advances: Nitric Oxide Synthase Reduces Cr(VI); The Chemistry of Popcorn: It’s All About “Pop-Ability”; Nanotubes May Help Heal Broken Bones; New Method Unites Organic Materials and Nanotechnology. (ROJResAdv) King, A. G. December, 1754–1759. Research Advances: Onions Battle Osteoporosis; New Weapon in War on TB; Smokers Beware: Study Shows Increased Cadmium Levels in the Brain May Cause Severe Neurological Disorders. (ROJResAdv) King, A. G. August, 1114–1116. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973.


Safety Tips Introducing Safety Topics Using a Student-Centered Approach. (ST) Wright, S. M. October, 1519–1520. Safe Preparation of HCl and DCl for IR Spectroscopy. (ST) Furlong, W. R.; Grubbs, W. T. January, 124.

Second-Year & AP Chemistry The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems. (2AP) Matsumoto, P. S. March, 406–407.

Second-Year Undergraduate

Ammonium Chloride. (CLIP) Young, J. A. November, 1618. Ammonium Dichromate. (CLIP) Young, J. A. November, 1617. Ammonium Thiocyanate. (CLIP) Young, J. A. November, 1619. Authors: Know the Hazards, Please! (re J. Chem. Educ.

3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. November, 1741–1742. Acid-Catalyzed Isomerization of Carvone to Carvacrol. Kjonaas, R. A.; Mattingly, S. P. December, 1813–1814. ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363. ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051– 1052. An Animated Interactive Overview of Molecular Symmetry. (JCE WebWare) Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1742–1743. Application of ChemDraw NMR Tool: Correlation of Program-Generated 13C Chemical Shifts and pKa Values of para-Substituted Benzoic Acids. Wang, H. September, 1340–1341. An Approach Towards Teaching Green Chemistry Fundamentals. (GRN) Van Arnum, S. D. November, 1689–1692. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. June, 901–902.

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Reports from Other Journals: The Physics Teacher The Physics Teacher: Black Boxes, Frozen Lakes, and What = mc 2. (ROJPhysTea) Clark, R. W. November, 1611– 1612. The Physics Teacher: Sliders, Staircases, and Seduction. (ROJPhysTea) Clark, R. W. February, 200.

Reports from Other Journals: The Science Teacher The Science Teacher: Fall 2005. (ROJSciTea) Long, S. November, 1609. The Science Teacher: Spring 2005. (ROJSciTea) Long, S. April, 514–515.

Safety / Hazards


Are We Serious about Preparing Chemists for the 21st Century Workplace or Are We Just Teaching Chemistry? Kerr, S.; Runquist, O. February, 231–233. Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Young, J. A. December, 1775. Automatic Low-Cost Data Acquisition from Old Polarimetric Instruments. (CET) Alibrandi, G.; D’Aliberti, S.; Coppolino, S.; Villari, A.; Micali, N. March, 442– 444. Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. Mills, N. S.; Spence, J. D.; Bushey, M. M. August, 1226–1228. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Chiral Crystallization of Ethylenediamine Sulfate. Koby, L.; Ningappa, J. B.; Dakessian, M.; Cuccia, L. A. July, 1043–1045. Chirality Made Simple: A 1- and 2-Dimensional Introduction to Stereochemistry. Gawley, R. E. July, 1009– 1012. Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. Circular Dichroism Investigation of Dess–Martin Periodinane Oxidation in the Organic Chemistry Laboratory. Reed, N. A.; Rapp, R. D.; Hamann, C. S.; Artz, P. G. July, 1053–1054. Cis and Trans Isomers of Cycloalkenes. Barrows, S. E.; Eberlein, T. H. September, 1334–1339. Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. Cerrada, E.; Laguna, M. April, 630–633. Comparative Methylation of 1,8-Dihydroxy-9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. Sereda, G. December, 1839–1840. A Convenient Method for Dispensing Organometallic Reagents. (CET) Newton, T. A. June, 936. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020. The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. Deuterium Exchange in Ethyl Acetoacetate: An Undergraduate GC–MS Experiment. Heinson, C. D.; Williams, J. M.; Tinnerman, W. N.; Malloy, T. B. May, 787–789. Diels–Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. April, 625–629. Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. Baar, M. R.; Wustholz, K. L. September, 1393–1394. The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. Displacements of Brownian Particles in Terms of Marian von Smoluchowski’s Heuristic Model. Klein, H.; Woermann, D. November, 1642–1644. E = mc 2 for the Chemist: When Is Mass Conserved? Treptow, R. S. November, 1636–1641. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. Baar, M. R.; Cerrone-Szakal, A. L. July, 1040–1042. An Engaging Illustration of the Physical Differences among Menthol Stereoisomers. Treadwell, E. M.; Black, T. H. July, 1046–1048. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. FríasFerrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. September, 1395–1398. Equilibria That Shift Left upon Addition of More Reactant. Lacy, J. E. August, 1192–1193. The Ethylene Ketal Protecting Group Revisited: The Synthesis of 4-Hydroxy-4,4-diphenyl-2-butanone.

2005, 82, 765–768). (Letter) Young, J. A. December, 1775. Balloon–Toy of Many Colors. (FPI) Williams, K. R. October, 1448–1449. Benzaldehyde. (CLIP) Young, J. A. December, 1770. Benzene. (CLIP) Young, J. A. December, 1769. Benzidine. (CLIP) Young, J. A. December, 1768. Cadmium. (CLIP) Young, J. A. April, 521. Catechol. (CLIP) Young, J. A. January, 31. Copper(I) Chloride. (CLIP) Young, J. A. July, 991. Copper(II) Acetate Monohydrate. (CLIP) Young, J. A. July, 990. Copper(II) Nitrate Trihydrate. (CLIP) Young, J. A. March, 375. Hydrogen Sulfide. (CLIP) Young, J. A. February, 202. An Industrial Chemistry Course That Optimizes the Value of Plant Tours. Hartman, J. S. February, 234– 239. Introducing Safety Topics Using a Student-Centered Approach. (ST) Wright, S. M. October, 1519–1520. JCE Chemical Laboratory Information Profiles (CLIPs) on CD-ROM. Abstract of JCE CLIPs 2005. (JCE Software) Holmes, J. L. November, 1744. Keeping Chemistry and Chemists Safe. (Editorial) Moore, J. W. July, 967. Lithium. (CLIP) Young, J. A. April, 520. Luminol (3-Aminophthalhydrazide). (CLIP) Young, J. A. October, 1465. Magnesium Oxide. (CLIP) Young, J. A. May, 677. Magnesium Sulfate. (CLIP) Young, J. A. May, 678. Mercury Thermometer Replacements in Chemistry Laboratories. Foster, B. L. February, 269–270. Mercury. (CLIP) Young, J. A. February, 203. Nickel(II) Carbonate. (CLIP) Young, J. A. June, 830. Nickel(II) Oxide. (CLIP) Young, J. A. June, 831. “Only When You Know the Hazards…”. (EHST) Jacobsen, E. K. July, 969. Poly(Vinyl Alcohol). (CLIP) Young, J. A. October, 1466. Potassium Hydroxide. (CLIP) Young, J. A. September, 1304. Potassium Nitrate. (CLIP) Young, J. A. September, 1305. Safe Preparation of HCl and DCl for IR Spectroscopy. (ST) Furlong, W. R.; Grubbs, W. T. January, 124. Sodium Borate Hydrogen Peroxidate Trihydrate. (CLIP) Young, J. A. January, 30. Zinc (dust and bulk). (CLIP) Young, J. A. August, 1143. Zinc Nitrate Hexahydrate. (CLIP) Young, J. A. August, 1144.


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www.JCE.DivCHED.org


A Networked NMR Spectrometer: Configuring a Shared Instrument. Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Kosinski, J.; Sinton, M. September, 1342–1344. NMR Analysis of Unknowns: An Introduction to 2D NMR Spectroscopy. Alonso, D. E.; Warren, S. E. September, 1385–1386. On Teaching Ionic Activity Effects: What, When, and Where? de Levie, R. June, 878–884. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. Organic Spectroscopy Laboratory: Utilizing IR and NMR in the Identification of an Unknown Substance. Glagovich, N. M.; Shine, T. D. September, 1382– 1384. Pharmaceutical Applications of Ion-Exchange Resins. (POC) Elder, D. P. April, 575–587. Photocatalytic Oxidation of Sulfurous Acid in an Aqueous Medium. Romero, A.; Hernández, G.; Suárez, M. F. August, 1234–1236. Polypyrazolylborates: Scorpionates. (POC) Trofimenko, S. November, 1715–1720. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667– 1670. Presumptive and Confirmatory Drug Tests. Anderson, C. December, 1809–1810. The Pythagorean Theorem and the Solid State. Kelly, B. S.; Splittgerber, A. G. May, 756–761. Qualitative Organic Analysis—In the Classroom and Laboratory. Finley, K. T. February, 240. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. A Quantitative Examination of Multiple Methods for Standardizing a Dilute Hydrochloric Acid Solution in an Undergraduate Chemistry Laboratory. Meagher, N. E.; Bowens, D. B.; Clark, B. S. March, 428–434. Quantitative Thermodynamic Descriptions of Aromaticity. A Computational Exercise for the Organic Chemistry Laboratory. (MMEE) Gavin, T. June, 953–957. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. March, 466–467. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Rotational Mobility in a Crystal Studied by Dielectric Relaxation Spectroscopy. An Experiment for the Physical Chemistry Laboratory. Dionísio, M.; Diogo, H. P.; Farinha, J. P.; Moura-Ramos, J. J. September, 1355–1360. Safe Preparation of HCl and DCl for IR Spectroscopy. (ST) Furlong, W. R.; Grubbs, W. T. January, 124. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. January, 93–95. Simple and Inexpensive Computer Interface to a Durrum Stopped-Flow Apparatus Tested Using the Iron(III)– Thiocyanate Reaction. (CBB) Hoag, C. M. December, 1823–1825. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. Warnke, M. M.; Erickson, A. E.; Smith, E. T. July, 1082–1085. A Solvent-Free Baeyer–Villiger Lactonization for the Undergraduate Organic Laboratory: Synthesis of γ-t-Butyl- ε -caprolactone. Esteb, J. J.; Hohman, J. N.; Schlamadinger, D. E.; Wilson, A. M. December, 1837–1838. The The Stereochemistry of Biochemical Molecules: A Subject to Revisit. Centelles, J. J.; Imperial, S. January, 75–78. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. A Supramolecular Approach to Medicinal Chemistry: Medicine Beyond the Molecule. (POC) Smith, D. K. March, 393–400. Surface pKa of Self-Assembled Monolayers. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. May, 779– 781.

Baar, M. R.; Russell, C. E.; Wustholz, K. L. July, 1057–1058. Exploring Chemical Analysis, 3rd Edition (by Daniel C. Harris). (BMR) Steehler, J. K. May, 685. Formation of α-Tetralone by Intramolecular Friedel– Crafts Acylation. (ML) Holden, M. S.; Crouch, R. D.; Barker, K. H. June, 934–935. Further Analysis of Boiling Points of Small Molecules, CHwFxClyBrz. Beauchamp, G. December, 1842–1845. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. Clennan, M. M.; Clennan, E. L. November, 1676–1678. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave, G. W.; Raston, C. L. March, 468–469. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381. Growth Kinetics and Modeling of ZnO Nanoparticles. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. May, 775–778. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? de Levie, R. June, 885–888. Is It Necessary To Dry Primary Standards before Analysis? Spraggins, J. M., II.; Williams, T. R. February, 311–312. Isolation of Shikimic Acid from Star Aniseed. Payne, R.; Edmonds, M. K. April, 599–600. “It Gets Me to the Product”: How Students Propose Organic Mechanisms. (CER) Bhattacharyya, G.; Bodner, G. M. September, 1402–1407. JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) Barrie, P. J. June, 958–959. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 7: Microscale Production of Ozone. (ML) Ibañez, J. G.; MayenMondragon, R.; Moran-Moran, M. T.; AlatorreOrdaz, A.; Mattson, B.; Eskestrand, S. October, 1546– 1548. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) Rosenstein, I. J. April, 652–654. A Low-Cost Experiment on Newtonian and NonNewtonian Fluids. Dolz, M.; Delegido, J.; Casanovas, A.; Hernández, M. March, 445–447. Making Usable, Quality Opaque or Transparent Soap. Mabrouk, S. T. October, 1534–1537. Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) White, L. L.; Kittredge, K. W. July, 1055– 1056. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389.

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Synthesis of Meso-Octamethylporphyrinogen: An Undergraduate Laboratory Mini-Scale Experiment in Organic Heterocyclic Chemistry. (ML) Sobral, A. J. April, 618–620. Teaching pH Measurements with a Student-Assembled Combination Quinhydrone Electrode. Scholz, F.; Steinhardt, T.; Kahlert, H.; Pörksen, J. R.; Behnert, J. May, 782–786. Telling the Stories of Chemistry. Kitson, T. M. October, 1504. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681. Testing for Ultraviolet Toxicity Using Fungi. Vital, M.; Esperón, P. June, 926–929. Thermal Degradation and Identification of Heat-Sensitive Polymers. Applications of Pyrolysis and Distillation and Instrumental Methods of Analysis. Clough, S. C.; Goldman, E. W. September, 1378–1379. Thermodynamics of the Relationship between Lattice Energy and Lattice Enthalpy. Jenkins, H. D. June, 950–952. Undergraduate Transitions: Enhancing Student Success. (ACS) Wesemann, J. February, 196–198. Understanding Rotation about a C=C Double Bond. Barrows, S. E.; Eberlein, T. H. September, 1329– 1333. Use of Enzymes in Organic Synthesis: Reduction of Ketones by Baker’s Yeast Revisited. Patterson, J.; Sigurdsson, S. T. July, 1049–1050. The Use of the Free, Open-Source Program Jmol To Generate an Interactive Web Site To Teach Molecular Symmetry. Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1736–1740. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583. Using Building-Block Puzzles To Practice Drawing Organic Mechanisms. Erdik, E. September, 1325– 1326. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522. Writing-Intensive Multimedia Projects in the Instrumental Methods Course. Van Ryswyk, H. January, 70–72. “You’re Repulsive!”—Teaching VSEPR in a Not-So-Elegant Way. Liu, R. S. April, 558–560.

Secondary School Chemistry Chemistry, The Central Science? The History of the High School Science Sequence. (SSC) Sheppard, K.; Robbins, D. M. April, 561–566.

Selenium More Elementary Riddles. Cunningham, K. D. April, 539–540. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. November, 1697–1699.

Semiconductors Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. Quantum Dots: An Experiment for Physical or Materials Chemistry. Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. November, 1700–1702. Research Advances: Children on School Buses May Face Increased Exposure to Diesel Pollution; Where Did All the Nitrogen Go?; Designer Wires. (ROJResAdv) King, A. G. October, 1434–1438.

Separation Science Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. Mills, N. S.; Spence, J. D.; Bushey, M. M. August, 1226–1228.


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Subject Index • Volume 82 • 2005 The Determination of Vanillin in a Vanilla Extract: An Analytical Undergraduate Experiment. Beckers, J. L. April, 604–606. Dynamic and Equilibrium Adsorption Experiments. Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Da Silva, F. A.; Silva, C. M. June, 919–923. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. Baar, M. R.; Cerrone-Szakal, A. L. July, 1040–1042. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. Plastic Antibodies: Molecular Recognition with Imprinted Polymers. An Introductory Polymer Chemistry Laboratory Investigation. Rushton, G. T.; Furmanski, B. D.; Shimizu, K. D. September, 1374– 1377. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. Bazzi, A.; Kreuz, B.; Wuokila, J.; Maqboul, A. March, 435–438.

Sodium Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. Bracken, J. D.; Tietz, D. May, 762–764. Measurement of the Isotopic Ratio of 10B/11B in NaBH4 by 1H NMR. Zanger, M.; Moyna, G. September, 1390–1392.

Solid-State Chemistry Intercalates—Exciting Compounds for Solid-State Chemistry Studies. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 453–455. A Microwave-Assisted Reduction of Cyclohexanone Using Solid-State-Supported Sodium Borohydride. (GRN) White, L. L.; Kittredge, K. W. July, 1055– 1056. The Pythagorean Theorem and the Solid State. Kelly, B. S.; Splittgerber, A. G. May, 756–761. Reduction of Ilmenite with Charcoal. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 456–459. The Relationship between Balancing Reactions and Reaction Lifetimes: A Consideration of the Potassium– Argon Radiometric Method for Dating Minerals. Howard, W. A. July, 1094–1098. Self-Assembled Colloidal Crystals: Visualizing Atomic Crystal Chemistry Using Microscopic Analogues of Inorganic Solids. Abrams, N. M.; Schaak, R. E. March, 450–452. Spectrophotometric Determination of the Hole Concentration in the Superconductor YBa2Cu3O7᎑x: An Undergraduate Experiment. Hoppé, J. I.; Malati, M. A. February, 299–301. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. May, 765–768. A Template-Controlled Solid-State Reaction for the Organic Laboratory. Frisˇ cˇ ic´, T.; Hamilton, T. D.; Papaefstathiou, G. S.; MacGillivray, L. R. November, 1679–1681. Thermodynamics of the Relationship between Lattice Energy and Lattice Enthalpy. Jenkins, H. D. June, 950–952.


Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Young, J. A. December, 1775. A Cool Drink! An Introduction to Concentrations. (JCE Classroom Activity) Bedrossian, M. February, 240A– 240B. Correction to “Henry’s Law: A Retrospective” (re J. Chem. Educ. 2004, 81, 1647–1652). (Correction) Rosenberg, R. M.; Peticolas, W. January, 38. A Device To Emulate Diffusion and Thermal Conductivity Using Water Flow. (TD) Blanck, H. F. October, 1523–1529. A Greener Approach for Measuring Colligative Properties. (GRN) McCarthy, S. M.; Gordon-Wylie, S. W. January, 116–119. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. February, 257–259. Improving Conceptions in Analytical Chemistry: ciVi = cfVf. Rodríguez-López, M.; Carrasquillo, A., Jr. September, 1327–1328. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. Solvents and Solvent Effects in Organic Chemistry, Third Edition (by Christian Reichardt). (BMR) Pagni, R. M. March, 382–383. Toys in the Classroom. Sarquis, J. L.; Sarquis, A. M. October, 1450–1453. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918.

Statistical Mechanics Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. Displacements of Brownian Particles in Terms of Marian von Smoluchowski’s Heuristic Model. Klein, H.; Woermann, D. November, 1642–1644. An Introduction to Statistical Mechanics. (JCE SymMath) Francl, M. M. January, 175. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. April, 655–656. Positive and Negative Temperatures in a Two-Level System: Thermodynamic and Statistical–Mechanical Perspectives. (ACL) Masthay, M. B.; Fannin, H. B. June, 867–873. The Relation of Temperature to Energy Spreadsheet. (JCE WebWare) King, C. April, 656. The Relation of Temperature to Energy. King, C. June, 861–866.

Stereochemistry The Addition of Bromine to 1,2-Diphenylethene. Amburgey-Peters, J. C.; Haynes, L. W. July, 1051–1052. Chiral Crystallization of Ethylenediamine Sulfate. Koby, L.; Ningappa, J. B.; Dakessian, M.; Cuccia, L. A. July, 1043–1045. Chirality Made Simple: A 1- and 2-Dimensional Introduction to Stereochemistry. Gawley, R. E. July, 1009–1012. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Diels–Alder Synthesis of endo-cis-N-Phenylbicyclo[2.2.2]oct-5-en-2,3-dicarboximide. Baar, M. R.; Wustholz, K. L. September, 1393–1394. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Enantiomeric Resolution of (±)-Mandelic Acid by (1R,2S)-(–)-Ephedrine. An Organic Chemistry Laboratory Experiment Illustrating Stereoisomerism. Baar, M. R.; Cerrone-Szakal, A. L. July, 1040–1042. An Engaging Illustration of the Physical Differences among Menthol Stereoisomers. Treadwell, E. M.; Black, T. H. July, 1046–1048. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) Rosenstein, I. J. April, 652–654. Menthol Stereoisomers. (JCE Featured Molecules) Coleman, W. F. July, 1048. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B. A Collaborative Experiment for Advanced Undergraduates. Rebolledo, F.; Liz, R. June, 930–933. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. Galembeck, S. E.; Caramori, G. F.; Romero, J. R. December, 1800–1804. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. June, 912–915. A Set of Hands-On Exercises on Conformational Analysis. Pellegrinet, S. C.; Mata, E. G. January, 73–74. The The Stereochemistry of Biochemical Molecules: A Subject to Revisit. Centelles, J. J.; Imperial, S. January, 75–78. Stereogenic Centers and Axes: A Comparison of the Chiral Topologies Available to Cabcd and abC=C=Ccd. Lloyd-Williams, P.; Giralt, E. July, 1031–1033. Use of Enzymes in Organic Synthesis: Reduction of Ketones by Baker’s Yeast Revisited. Patterson, J.; Sigurdsson, S. T. July, 1049–1050.

Spectroscopy

Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. A Demonstration of Sample Segregation. (TD) Fritz, M. D. February, 255–256. Employing Popular Children’s Literature To Teach Elementary School Chemistry: An Engaging Outreach Program. (CFK) Wally, L. M.; Levinger, N. E.; Grainger, D. W. October, 1489–1495. Organic Spectroscopy Laboratory: Utilizing IR and NMR in the Identification of an Unknown Substance. Glagovich, N. M.; Shine, T. D. September, 1382– 1384. Rotational Mobility in a Crystal Studied by Dielectric Relaxation Spectroscopy. An Experiment for the Physical Chemistry Laboratory. Dionísio, M.; Diogo, H. P.; Farinha, J. P.; Moura-Ramos, J. J. September, 1355–1360.

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A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) Kruse, R. A.; Roehrig, G. H. August, 1246–1250. Developing and Measuring Proficiency. (Editorial) Moore, J. W. April, 503. Global Leadership in Science and Technology. (Editorial) Moore, J. W. June, 807. Implementing the Professional Development Standards: A Research Department’s Innovative Masters Degree Program for High School Chemistry Teachers. Blasie, C. W.; Palladino, G. F. April, 567–570.

Solutions / Solvents

Addendum to “Laser-Pointer-Based Spectrometer for Endpoint Detection of EDTA Titrations”. (Letter) Dahm, C. E. May, 683. Circular Birefringence and Circular Dichroism Simulation. (JCE SymMath) Brown, Z.; Starkey, R. July, 1100. Colors in Liquid Crystals. (JCE Classroom Activity) Lisensky, G. C.; Boatman, E. M. September, 1360A– 1360B. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. Exploring Chemical Analysis, 3rd Edition (by Daniel C. Harris). (BMR) Steehler, J. K. May, 685. Global Least-Squares Analysis of the IR Rotation–Vibration Spectrum of HCl. Tellinghuisen, J. January, 150– 156. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 453–455. Investigating the Photoelectric Effect Using LEDs and a Modular Spectroscope. Diaz, L.; Smith, C. A. June, 906–908. Modern Spectroscopy, 4th Edition (by J. Michael Hollas). (BMR) Castner, E. W., Jr. January, 43–44. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. Ahn, H.; Whitten, J. E. June, 909–911. Quantum States of Atoms and Molecules. (JCE LivTexts) Hanson, D. M.; Zielinski, T. J.; Harvey, E.; Sweeney, R. December, 1880. Self-Assembled Colloidal Crystals: Visualizing Atomic Crystal Chemistry Using Microscopic Analogues of Inorganic Solids. Abrams, N. M.; Schaak, R. E. March, 450–452. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100. Understanding Mass Spectra, A Basic Approach, Second Edition (by R. Martin Smith). (BMR) Boggess, B. May, 687–688.

Solids

Standards: National and State

Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. Todebush, P. M.; Geiger, F. M. October, 1542–1545. Thermodynamics of the Relationship between Lattice Energy and Lattice Enthalpy. Jenkins, H. D. June, 950–952.


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terview with Harold W. Kroto. Cardellini, L. May, 751–755. Cross-Proportions: A Conceptual Method for Developing Quantitative Problem-Solving Skills. Cook, E.; Cook, R. L. August, 1187–1189. Departing from Lectures: An Evaluation of a Peer-Led Guided Inquiry Alternative. (CER) Lewis, S. E.; Lewis, J. E. January, 135–139. The Effects of Thinking Aloud Pair Problem Solving on High School Students’ Chemistry Problem-Solving Performance and Verbal Interaction. (CER) Jeon, K.; Huffman, D.; Noh, T. October, 1558–1564. Experiences and Reflections about Teaching Atomic Structure in a Jigsaw Classroom in Lower Secondary School Chemistry Lessons. (CER) Eilks, I. February, 313–319. Fully Exploiting the Potential of the Periodic Table through Pattern Recognition. Schultz, E. November, 1649–1657. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) Herman, C.; Casiday, R. E.; Deppe, R. K.; Gilbertson, M.; Spees, W. M.; Holten, D.; Frey, R. F. December, 1871–1879. Introducing Safety Topics Using a Student-Centered Approach. (ST) Wright, S. M. October, 1519–1520. Learner-Centered Education. (EHST) Mason, D. S. August, 1113. The Match Game: A Discovery of the Laboratory Equipment Used in General Chemistry. (VIEW) Greengold, S. L. April, 547–548. Napoleon’s Buttons: Teaching the Role of Chemistry in History. Samet, C.; Higgins, P. J. October, 1496–1500. Organic Chemistry of the Cell: An Interdisciplinary Approach To Learning with a Focus on Reading, Analyzing, and Critiquing Primary Literature. Almeida, C. A.; Liotta, L. J. December, 1794–1799. Performance-Related Feedback: The Hallmark of Efficient Instruction. Brooks, D. W.; Schraw, G.; Crippen, K. J. April, 641–644. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. Reaction to “Chemistry Is Not a Laboratory Science”— Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 997–998. Response to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Morton, S. D. July, 997. Service-Learning in Introductory Chemistry: Supplementing Chemistry Curriculum in Elementary Schools. Esson, J. M.; Stevens-Truss, R.; Thomas, A. August, 1168–1173. Sherlock Holmes and the Case of the Raven and the Ambassador’s Wife: An Inquiry-Based Murder Mystery. Grove, N. P.; Bretz, S. L. October, 1532–1533. Student Opinions Regarding Inquiry-Based Labs. (VIEW) Deters, K. M. August, 1178–1180. Systemic Approach to Teaching and Learning. (Letter) Lagowski, J. J. February, 211. Taking Issue with “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Stephens, C. E. July, 998. Taking Issue with “Chemistry Is Not a Laboratory Science”—Author Reply (re J. Chem. Educ. 2004, 81, 1257). (Letter) Hawkes, S. J. July, 998–999. Using an Interactive, Compensatory Model of Learning To Improve Chemistry Teaching. Schraw, G.; Brooks, D. W.; Crippen, K. J. April, 637–640. Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) Harris, H. H. April, 530–531.

Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793.

Stoichiometry Amino Acid Complementarity: A Biochemical Exemplar of Stoichiometry for General and Health Sciences Chemistry. Vitz, E. July, 1013–1016. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. Bracken, J. D.; Tietz, D. May, 762–764. An Approach Towards Teaching Green Chemistry Fundamentals. (GRN) Van Arnum, S. D. November, 1689–1692. Assessing the Effect of Web-Based Learning Tools on Student Understanding of Stoichiometry Using Knowledge Space Theory. (TECH) Arasasingham, R. D.; Taagepera, M.; Potter, F.; Martorell, I.; Lonjers, S. August, 1251–1262. Chemistry Teachers’ Estimations of Their Students’ Learning Achievement. (CER) Lin, H.; Lee, S. T.; Treagust, D. F. October, 1565–1569. Cross-Proportions: A Conceptual Method for Developing Quantitative Problem-Solving Skills. Cook, E.; Cook, R. L. August, 1187–1189. Evaluating Students’ Conceptual Understanding of Balanced Equations and Stoichiometric Ratios Using a Particulate Drawing. (CER) Sanger, M. J. January, 131–134. Kilogram and the Mole Redux. (Letter) Karol, P. J. February, 212. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. DeMeo, S. August, 1219– 1222. Procedure for Decomposing a Redox Reaction into HalfReactions. Fishtik, I.; Berka, L. H. April, 553–557. A Simple and Easy-To-Learn Chart of the Main Classes of Inorganic Compounds and Their Acid–Base Reactions. Sereda, G. November, 1645–1648. Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512.

Student / Career Counseling ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363. ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. Are We Serious about Preparing Chemists for the 21st Century Workplace or Are We Just Teaching Chemistry? Kerr, S.; Runquist, O. February, 231–233. COAChing Women To Succeed in Academic Careers in the Chemical Sciences. Richmond, G. L. March, 351– 353. Undergraduate Transitions: Enhancing Student Success. (ACS) Wesemann, J. February, 196–198.

Student-Centered Learning 8:31 a.m. Belly Flop: Attitude Adjustment through Weekly Feature Molecules. Franklin, S. J.; Pienta, N. J.; Fry, M. D. June, 847–850. ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363. ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. Assessing the Effect of Web-Based Learning Tools on Student Understanding of Stoichiometry Using Knowledge Space Theory. (TECH) Arasasingham, R. D.; Taagepera, M.; Potter, F.; Martorell, I.; Lonjers, S. August, 1251–1262. Attitudinal Effects of a Student-Centered Active Learning Environment. (CER) Oliver-Hoyo, M. T.; Allen, D. June, 944–949. Boosting Complex Learning by Strategic Assessment and Course Design. (CER) Bergendahl, C.; Tibell, L. April, 645–651. Chem-2-Chem: A One-to-One Supportive Learning Environment for Chemistry. (CER) Báez-Galib, R.; Colón-Cruz, H.; Resto, W.; Rubin, M. R. December, 1859–1863. Chemical Demonstrations as the Laboratory Component in Nonscience Majors Courses. An Outreach-Targeted Approach. Ophardt, C. E.; Applebee, M. S.; Losey, E. N. August, 1174–1177. Chemistry as General Education (re J. Chem. Educ. 2004, 81, 54–57). (Letter) Silverstein, T. P. June, 838. Chemistry, Creativity, Collaboration, and C60: An In-

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Sulfur Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. Cerrada, E.; Laguna, M. April, 630–633. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. Ahn, H.; Whitten, J. E. June, 909–911.

Superconductivity Spectrophotometric Determination of the Hole Concentration in the Superconductor YBa2Cu3O7᎑x: An Undergraduate Experiment. Hoppé, J. I.; Malati, M. A. February, 299–301.

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Surface Science Dynamic and Equilibrium Adsorption Experiments. Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Da Silva, F. A.; Silva, C. M. June, 919–923. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. Heinz, W. F.; Hoh, J. H. May, 695–703. Nanopatterning with Lithography. (JCE Classroom Activity) Haynes, C. L.; McFarland, A. D.; Van Duyne, R. P.; Godwin, H. A. May, 768A–768B. Nantribology: Rubbing on a Small Scale. Dickinson, J. T. May, 734–742. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. Todebush, P. M.; Geiger, F. M. October, 1542–1545. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Surface pKa of Self-Assembled Monolayers. Hale, P. S.; Maddox, L.; Shapter, J. G.; Gooding, J. J. May, 779– 781.

Symposium: Chemistry at the Nanometer Scale Electrochemical Fabrication of Metallic Quantum Wires. Tao, N. May, 720–726. Electrochemistry at Nanometer-Scaled Electrodes. Watkins, J. J.; Zhang, B.; White, H. S. May, 712– 719. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. Heinz, W. F.; Hoh, J. H. May, 695–703. Nantribology: Rubbing on a Small Scale. Dickinson, J. T. May, 734–742. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Single-Molecule Electronic Measurements with Metal Electrodes. Lindsay, S. May, 727–733.

Synthesis An Azulene-Based Discovery Experiment: Challenging Students To Watch for the “False Assumption”. Garner, C. M. November, 1686–1688. Capillary Electrophoresis Analysis of Substituted Benzoic Acids. An Experiment for the Organic Synthesis Laboratory. Mills, N. S.; Spence, J. D.; Bushey, M. M. August, 1226–1228. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. Cerrada, E.; Laguna, M. April, 630–633. Comparative Methylation of 1,8-Dihydroxy-9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. Sereda, G. December, 1839–1840. A Convenient Method for Dispensing Organometallic Reagents. (CET) Newton, T. A. June, 936. Conversion of an Aziridine to an Oxazolidinone Using a Salt and Carbon Dioxide in Water. Wallace, J. R.; Lieberman, D. L.; Hancock, M. T.; Pinhas, A. R. August, 1229–1230. Diels–Alder Cycloadditions: A MORE Experiment in the Organic Laboratory Including a Diene Identification Exercise Involving NMR Spectroscopy and Molecular Modeling. Shaw, R.; Severin, A.; Balfour, M.; Nettles, C. April, 625–629. The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. The Ethylene Ketal Protecting Group Revisited: The Synthesis of 4-Hydroxy-4,4-diphenyl-2-butanone. Baar, M. R.; Russell, C. E.; Wustholz, K. L. July, 1057–1058.


1945



The Evolution of a Green Chemistry Laboratory Experiment: Greener Brominations of Stilbene. (GRN) McKenzie, L. C.; Huffman, L. M.; Hutchison, J. E. February, 306–310. Fifty Ways To Make Boric Acid (with Apologies to Paul Simon). Davis, C. M. April, 541. Formation of α-Tetralone by Intramolecular Friedel– Crafts Acylation. (ML) Holden, M. S.; Crouch, R. D.; Barker, K. H. June, 934–935. A GC–MS Analysis of an SN2 Reaction for the Organic Laboratory. Clennan, M. M.; Clennan, E. L. November, 1676–1678. Generation, Isolation, and Characterization of a Stable Enol from Grignard Addition to a Bis-Ester. A Microscale Experiment for the Undergraduate Organic Chemistry Laboratory. (ML) Nicaise, O. J.; Ostrom, K. F.; Dalke, B. J. July, 1059–1064. Green Chemistry Laboratory: Benign Synthesis of 4,6Diphenyl[2,2´]bipyridine via Sequential Solventless Aldol and Michael Addition Reactions. (GRN) Cave, G. W.; Raston, C. L. March, 468–469. A Green Polymerization of Aspartic Acid for the Undergraduate Organic Laboratory. (GRN) Bennett, G. D. September, 1380–1381. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. A Literature Exercise Using SciFinder Scholar for the Sophomore-Level Organic Chemistry Course. (CII) Rosenstein, I. J. April, 652–654. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. Name Reactions and Reagents in Organic Synthesis, 2nd Ed. (by Bradford P. Mundy, Michael G. Ellerd, and Frank G. Favaloro). (BMR) Holman, R. W. December, 1780–1782. Named Organic Reactions, 2nd Ed. (by Thomas Laue and Andreas Plagens). (BMR) Holman, R. W. December, 1780–1782. Polypyrazolylborates: Scorpionates. (POC) Trofimenko, S. November, 1715–1720. Preparation of Dppe-Stabilized Gold Nanoparticles. Dungey, K. E.; Muller, D. P.; Gunter, T. May, 769– 770. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667–1670. Rotor-shaped Cyclopentadienyltetraphenylcyclobutadienecobalt. An Advanced Inorganic Experiment. MacFarland, D. K.; Gorodetzer, R. January, 109–110. The Sharpless Asymmetric Dihydroxylation in the Organic Chemistry Majors Laboratory. Nichols, C. J.; Taylor, M. R. January, 105–108. A Solvent-Free Baeyer–Villiger Lactonization for the Undergraduate Organic Laboratory: Synthesis of γ-t-Butyl- ε -caprolactone. Esteb, J. J.; Hohman, J. N.; Schlamadinger, D. E.; Wilson, A. M. December, 1837–1838. Strategic Applications of Named Reactions in Organic Synthesis: Background and Detailed Mechanisms (by László Kürti and Barbara Czakó). (BMR) Holman, R. W. December, 1780–1782. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. Williams, G. L.; Vohs, J. K.; Brege, J. J.; Fahlman, B. D. May, 771– 774. Synthesis and Analysis of Copper Hydroxy Double Salts. Brigandi, L. M.; Leber, P. A.; Yoder, C. H. November, 1662. Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. Getzler, Y. D.; Schmidt, J. A.; Coates, G. W. April, 621–624. Synthesis of Meso-Octamethylporphyrinogen: An Undergraduate Laboratory Mini-Scale Experiment in Organic Heterocyclic Chemistry. (ML) Sobral, A. J. April, 618–620. Using Building-Block Puzzles To Practice Drawing Organic Mechanisms. Erdik, E. September, 1325–1326.

The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735.

1946

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Techniques To Enhance Instructors’ Teaching Effectiveness with Chemistry Students Who Are Blind or Visually Impaired. Supalo, C. October, 1513–1518. Using Building-Block Puzzles To Practice Drawing Organic Mechanisms. Erdik, E. September, 1325–1326.

Textbooks / Reference Books

TA Training / Orientation

Amino Acid Complementarity: A Biochemical Exemplar of Stoichiometry for General and Health Sciences Chemistry. Vitz, E. July, 1013–1016. Analytical Chemistry for Technicians, 3rd Edition (by John Kenkel). (BMR) Harvey, D. T. January, 39. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. June, 901–902. The Cartoon Guide to Chemistry (by Larry Gonick and Craig Criddle). (BMR) Harris, H. H. December, 1777–1778. The Chemical Bond: A Fundamental Quantum–Mechanical Picture (Springer Series in Chemical Physics) (by Tadamassa Shida). (BMR) Pounds, A. J. July, 1000–1001. Chemistry of Moth Repellents. (POC) Pinto, G. September, 1321–1324. Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Electrochemical Fabrication of Metallic Quantum Wires. Tao, N. May, 720–726. Electrochemistry at Nanometer-Scaled Electrodes. Watkins, J. J.; Zhang, B.; White, H. S. May, 712– 719. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Encyclopedia of Analytical Science, Second Edition (edited by Paul Worsfold, Alan Townshend, and Colin Poole). (BMR) Thompson, R. Q. September, 1313– 1314. Environmental Laboratory Exercises for Instrumental Analysis and Environmental Chemistry (by Frank M. Dunnivant). (BMR) De Jesús, M. A. March, 382. Equilibria That Shift Left upon Addition of More Reactant. Lacy, J. E. August, 1192–1193. Ewing’s Analytical Instrumentation Handbook, 3rd Edition (edited by Jack Cazes). (BMR) Steehler, J. K. September, 1315–1316. Exploration of the Chemistry of Plants: A General Education Course. (IC) Séquin, M. December, 1787– 1790. Exploring Chemical Analysis, 3rd Edition (by Daniel C. Harris). (BMR) Steehler, J. K. May, 685. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) Kwan, E. E. July, 1026–1030. Faculty Guide for Moving Teaching and Learning to the Web, Second Edition (by Judith V. Boettcher and Rita-Marie Conrad). (BMR) Pienta, N. J. July, 1000. The Fly in the Ointment: 70 Fascinating Commentaries on the Science of Everyday Life (by Joe Schwarcz). (BMR) Conover, W. December, 1777. Freeing Information. (Editorial) Moore, J. W. January, 7. From Masurium to Trinacrium: The Troubled Story of Element 43. Zingales, R. February, 221–227. Fundamentals of Quantum Chemistry (Complementary Science Series), Second Edition (by James E. House). (BMR) Tuchler, M. July, 1002–1003. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. Heinz, W. F.; Hoh, J. H. May, 695–703. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. Instant Notes in Inorganic Chemistry, Second Edition (by P. A. Cox). (BMR) Smith, P. M. February, 213. Instant Notes in Organic Chemistry, 2nd Edition (by Graham L. Patrick). (BMR) Eberlein, T. H. December, 1778–1780. Introducing JCE LivTexts: Physical Chemistry. (JCE LivTexts) Zielinski, T. J. December, 1880. An Introduction to Chemical Kinetics (by Margaret Robson Wright). (BMR) Elrod, M. J. January, 40–41. Introduction to Protein and Peptide Analysis with Mass

Instrumental Proficiency Program for Undergraduates. Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. June, 898– 900.

Teaching with Problems and Case-Studies Who Is Responsible for a Fraud: An Exercise Examining Research Misconduct and the Obligations of Authorship through Case Studies. (TPCS) Niece, B. K. October, 1521–1522.

Teaching with Technology Assessing the Effect of Web-Based Learning Tools on Student Understanding of Stoichiometry Using Knowledge Space Theory. (TECH) Arasasingham, R. D.; Taagepera, M.; Potter, F.; Martorell, I.; Lonjers, S. August, 1251–1262. Interdisciplinary, Application-Oriented Tutorials: Design, Implementation, and Evaluation. (TECH) Herman, C.; Casiday, R. E.; Deppe, R. K.; Gilbertson, M.; Spees, W. M.; Holten, D.; Frey, R. F. December, 1871–1879. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735.

Technetium From Masurium to Trinacrium: The Troubled Story of Element 43. Zingales, R. February, 221–227. More on Element 43. (Letter) Kauffman, G. B. September, 1310. Some Footnotes on the History of Masurium. (Letter) Wagner, H. J. September, 1309.

Testing / Assessment Assessment of Molecular Construction in Undergraduate Biochemistry. Booth, D.; Bateman, R. C., Jr.; Sirochman, R.; Richardson, D. C.; Richardson, J. S.; Weiner, S. W.; Farwell, M.; Putnam-Evans, C. December, 1854–1858. Attitudinal Effects of a Student-Centered Active Learning Environment. (CER) Oliver-Hoyo, M. T.; Allen, D. June, 944–949. Beyond “Student Attitudes”: Chemistry Self-Concept Inventory for Assessment of the Affective Component of Student Learning. (CER) Bauer, C. F. December, 1864–1870. Boosting Complex Learning by Strategic Assessment and Course Design. (CER) Bergendahl, C.; Tibell, L. April, 645–651. Chemical Demonstrations as the Laboratory Component in Nonscience Majors Courses. An Outreach-Targeted Approach. Ophardt, C. E.; Applebee, M. S.; Losey, E. N. August, 1174–1177. Chemistry Teachers’ Estimations of Their Students’ Learning Achievement. (CER) Lin, H.; Lee, S. T.; Treagust, D. F. October, 1565–1569. A Comparison Study: Assessing Teachers’ Conceptions with the Chemistry Concepts Inventory. (CER) Kruse, R. A.; Roehrig, G. H. August, 1246–1250. Developing and Measuring Proficiency. (Editorial) Moore, J. W. April, 503. An Experimental Introduction to Interlaboratory Exercises in Analytical Chemistry. Puignou, L.; Llauradó, M. July, 1079–1081. Is It Necessary To Dry Primary Standards before Analysis? Spraggins, J. M., II.; Williams, T. R. February, 311–312. “Old” Technology Is Still Useful. (Letter) Lagowski, J. J. March, 381. The Same or Not the Same: Equivalence as an Issue in Educational Research. (CER) Lewis, S. E.; Lewis, J. E. September, 1408–1412. The Science Teacher: Fall 2005. (ROJSciTea) Long, S. November, 1609.


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Hendrik F. Hameka). (BMR) Tuchler, M. January, 41– 43. Quantum States of Atoms and Molecules. (JCE LivTexts) Hanson, D. M.; Zielinski, T. J.; Harvey, E.; Sweeney, R. December, 1880. The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems. (2AP) Matsumoto, P. S. March, 406–407. Reactions to “The Reaction Quotient Is Unnecessary To Solve Equilibrium Problems” —Author Reply (J. Chem. Educ. 2005, 82, 406–407). (Letter) Matsumoto, P. S. August, 1150. The Relation of Temperature to Energy. King, C. June, 861–866. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Safe Preparation of HCl and DCl for IR Spectroscopy. (ST) Furlong, W. R.; Grubbs, W. T. January, 124. Self-Consistent Field Calculations on Atoms Using Excel. (ACL) Hoffman, G. G. September, 1418–1422. A Simple and Easy-To-Learn Chart of the Main Classes of Inorganic Compounds and Their Acid–Base Reactions. Sereda, G. November, 1645–1648. Single-Molecule Electronic Measurements with Metal Electrodes. Lindsay, S. May, 727–733. Solvents and Solvent Effects in Organic Chemistry, Third Edition (by Christian Reichardt). (BMR) Pagni, R. M. March, 382–383. Some Footnotes on the History of Masurium. (Letter) Wagner, H. J. September, 1309. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209. The The Stereochemistry of Biochemical Molecules: A Subject to Revisit. Centelles, J. J.; Imperial, S. January, 75–78. Stoichiometry of Calcium Medicines. (RSA) Pinto, G. October, 1509–1512. Strategic Applications of Named Reactions in Organic Synthesis: Background and Detailed Mechanisms (by László Kürti and Barbara Czakó). (BMR) Holman, R. W. December, 1780–1782. Summer Reading. Pagni, R. M.; Frech, C. B.; Coppola, B. P.; Harris, H. H.; Kovac, J. D. June, 817–824. Teaching Significant Figures Using Age Conversions. (AA) Crute, T. D. October, 1507–1508. Techniques To Enhance Instructors’ Teaching Effectiveness with Chemistry Students Who Are Blind or Visually Impaired. Supalo, C. October, 1513–1518. Thermodynamic Calculation of Work for Some Irreversible Processes. Bertrand, G. L. June, 874–877. Thermodynamics of the Relationship between Lattice Energy and Lattice Enthalpy. Jenkins, H. D. June, 950–952. Trends in Ionization Energy of Transition-Metal Elements. Matsumoto, P. S. November, 1660–1661. Understanding Mass Spectra, A Basic Approach, Second Edition (by R. Martin Smith). (BMR) Boggess, B. May, 687–688. Understanding Rotation about a C=C Double Bond. Barrows, S. E.; Eberlein, T. H. September, 1329– 1333. Valence, Covalence, Hypervalence, Oxidation State, and Coordination Number. Smith, D. W. August, 1202– 1204. Van Nostrand’s Encyclopedia of Chemistry, Fifth Edition (edited by Glenn D. Considine). (BMR) Kovac, J. D. June, 840–841. The Way of the Teacher (by J. M. Haile). (BMR) Kovac, J. D. October, 1476. Where Should the Nuclei Be Located? Liu, Y.; Liu, Y.; Drew, M. February, 320–322.

Spectrometry (by Fred Klink). (BMR) Harvey, D. T. July, 1003–1004. Introduction to Quantum Mechanics: in Chemistry, Material Science, and Biology (by S. M. Blinder). (BMR) Dunn, K. M. March, 383–386. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? de Levie, R. June, 885–888. JCE LivTexts: Living Textbooks for Chemistry. (Editorial) Moore, J. W. December, 1751. JCE: The Leader of Change. (EHST) Mason, D. S. December, 1753. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. The Literature of Chemistry: Recommended Titles for Undergraduate Chemistry Library Collections (by Judith A. Douville). (BMR) Kovac, J. D. August, 1153. Make Your Mark in Science. Creativity, Presenting, Publishing, and Patents. A Guide for Young Scientists (by Claus Ascheron and Angela Kickuth). (BMR) Kovac, J. D. September, 1313. The Meaning of d-Orbital Labels. Ashkenazi, G. February, 323–324. Metal–Ligand Bonding (by Rob Janes and Elaine Moore). (BMR) Pesterfield, L. L. August, 1153–1154. Modern Spectroscopy, 4th Edition (by J. Michael Hollas). (BMR) Castner, E. W., Jr. January, 43–44. Molecular Diversity and Combinatorial Chemistry: Principles and Applications (Tetrahedron Organic Chemistry Series) (by Michael C. Pirrung). (BMR) Crouch, R. D. August, 1154–1156. Name Reactions and Reagents in Organic Synthesis, 2nd Ed. (by Bradford P. Mundy, Michael G. Ellerd, and Frank G. Favaloro). (BMR) Holman, R. W. December, 1780–1782. Named Organic Reactions, 2nd Ed. (by Thomas Laue and Andreas Plagens). (BMR) Holman, R. W. December, 1780–1782. Nanophysics and Nanotechnology: An Introduction to Modern Concepts in Nanoscience (by Edward L. Wolf ). (BMR) Somer, F. L., Jr. November, 1625– 1626. Nantribology: Rubbing on a Small Scale. Dickinson, J. T. May, 734–742. Nature: Small, Smaller, Smallest. A Pocket-size Device, Nano-size Electrical Conduits, and Amyloid Protein Fibril Structure. (ROJNature) Heinhorst, S.; Cannon, G. November, 1599–1600. No Problems with Q. (Letter) Lederer, R. August, 1149. On Teaching Ionic Activity Effects: What, When, and Where? de Levie, R. June, 878–884. Organic Chemistry at a Glance (by L. M. Harwood, J. E. McKendrick, and R. C. Whitehead). (BMR) Gooch, E. E. June, 841–842. The Organic Chemistry of Biological Pathways (by John E. McMurry and Tadhg P. Begley). (BMR) Rosan, A. M. November, 1626–1628. Organic Chemistry: An Intermediate Text, Second Edition (by Robert V. Hoffman). (BMR) Waddell, T. G. February, 215–216. Our Molecular Future: How Nanotechnology, Robotics, Genetics, and Artificial Intelligence Will Transform Our World (by Douglas Mulhall). (BMR) Frech, C. B. May, 685–686. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Polymer Chemistry: Introduction to an Indispensable Science (by David M. Teegarden). (BMR) Matthews, M. S. February, 213–214. Polymers (Oxford Chemistry Primers No. 85) (by David Walton and J. Phillip Lorimer). (BMR) Shibata, J. H. April, 532–534. Polypyrazolylborates: Scorpionates. (POC) Trofimenko, S. November, 1715–1720. Predicting the Atomic Weights of the Trans-Lawrencium Elements: A Novel Application of Dobereiner’s Triads. Ibrahim, S. A. November, 1658–1659. Procedure for Decomposing a Redox Reaction into HalfReactions. Fishtik, I.; Berka, L. H. April, 553–557. Promethean Ambitions: Alchemy and the Quest to Perfect Nature (by William R. Newman). (BMR) Bernal, P. J. April, 531–532. Properties of the Lanthanide Metals: Correlations and Discontinuities (re J. Chem. Educ. 2005, 82, 473– 483). (Letter) Laing, M. November, 1623. The Pythagorean Theorem and the Solid State. Kelly, B. S.; Splittgerber, A. G. May, 756–761. Quantal Density Functional Theory (by Viraht Sahni). (BMR) Massa, L. October, 1476–1478. Quantum Mechanics: A Conceptual Approach (by

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Thallium Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727.

Theoretical Chemistry E = mc 2 for the Chemist: When Is Mass Conserved? Treptow, R. S. November, 1636–1641. Kmonodim, a Program for the Numerical Solution of the One-Dimensional Schrödinger Equation. Angeli, C.; Borini, S.; Cimiraglia, R. May, 795–800. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. Galembeck, S. E.; Caramori, G. F.; Romero, J. R. December, 1800–1804. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman,

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W. F.; Fedosky, E. W. April, 655–656. Quantal Density Functional Theory (by Viraht Sahni). (BMR) Massa, L. October, 1476–1478. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. The Relation of Temperature to Energy Spreadsheet. (JCE WebWare) King, C. April, 656. The Relation of Temperature to Energy. King, C. June, 861–866. Self-Consistent Field Calculations on Atoms Using Excel. (ACL) Hoffman, G. G. September, 1418–1422. A Simple Reduction Process for the Normal Vibrational Modes Occurring in Linear Molecules. McInerny, W. J. January, 140–144. Single-Slit Diffraction and the Uncertainty Principle. Rioux, F. August, 1210. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209.

Thermal Analysis Is It Necessary To Dry Primary Standards before Analysis? Spraggins, J. M., II.; Williams, T. R. February, 311–312. Low-Cost Thermocouple Signal-Conditioning Module. (CET) Lenzi, M. K.; Silva, F. M.; Lima, E. L.; Pinto, J. C.; Cunningham, M. F. January, 122–123.

Thermodynamics Computing Liquid–Vapor Phase Diagrams for Non-Ideal Binary Mixtures. (JCE SymMath) Chen, F. M. July, 1100. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Correction to “Henry’s Law: A Retrospective” (re J. Chem. Educ. 2004, 81, 1647–1652). (Correction) Rosenberg, R. M.; Peticolas, W. January, 38. Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. Displacements of Brownian Particles in Terms of Marian von Smoluchowski’s Heuristic Model. Klein, H.; Woermann, D. November, 1642–1644. E = mc 2 for the Chemist: When Is Mass Conserved? Treptow, R. S. November, 1636–1641. Enthalpy of Vaporization by Gas Chromatography: A Physical Chemistry Experiment. Ellison, H. R. July, 1086–1088. Equilibria That Shift Left upon Addition of More Reactant. Lacy, J. E. August, 1192–1193. A Greener Approach for Measuring Colligative Properties. (GRN) McCarthy, S. M.; Gordon-Wylie, S. W. January, 116–119. JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) Barrie, P. J. June, 958–959. A Lattice Energy Spreadsheet. (JCE WebWare) King, C. October, 1584. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Measuring Gas-Phase Basicities of Amino Acids Using an Ion Trap Mass Spectrometer. A Physical Chemistry Laboratory Experiment. Sunderlin, L. S.; Ryzhov, V.; Keller, L. M.; Gaillard, E. R. July, 1071–1073. Microscopic Description of Le Châtelier Principle. Novak, I. August, 1190–1191. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. A Note on Dalton’s Law: Myths, Facts, and Implementation. Missen, R. W.; Smith, W. R. August, 1197– 1201. On Teaching Ionic Activity Effects: What, When, and Where? de Levie, R. June, 878–884. Peer-Reviewed JCE WebWare. (JCE WebWare) Coleman, W. F.; Fedosky, E. W. April, 655–656. The Physics Teacher: Black Boxes, Frozen Lakes, and What = mc 2. (ROJPhysTea) Clark, R. W. November, 1611– 1612. Positive and Negative Temperatures in a Two-Level System: Thermodynamic and Statistical–Mechanical Perspectives. (ACL) Masthay, M. B.; Fannin, H. B. June, 867–873. Procedure for Decomposing a Redox Reaction into HalfReactions. Fishtik, I.; Berka, L. H. April, 553–557. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) Celej, M. S.; Fidelio, G. D.; Dassie, S. A. January, 85–92.


1947

Subject Index • Volume 82 • 2005 The q/T Paradox: Which “Contains More Heat”, a Cup of Coffee at 95 °C or a Liter of Icewater? (TD) Vitz, E.; Schuman, M. J. June, 856–860. Quantitative Thermodynamic Descriptions of Aromaticity. A Computational Exercise for the Organic Chemistry Laboratory. (MMEE) Gavin, T. June, 953–957. The Reaction Quotient (Q) IS Useful After All (re J. Chem. Educ. 2005, 82, 406–407. (Letter) Silverstein, T. P. August, 1149. Regarding Entropy Analysis (re J. Chem. Educ. 2004, 81, 1585–1594). (Letter) Hanson, R. M. June, 839. Regarding Entropy Analysis—Author Reply (re J. Chem. Educ. 2004, 81, 1585–1594). (Letter) Bindel, T. H. June, 839. The Relation of Temperature to Energy Spreadsheet. (JCE WebWare) King, C. April, 656. The Relation of Temperature to Energy. King, C. June, 861–866. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100. Thermodynamic Calculation of Work for Some Irreversible Processes. Bertrand, G. L. June, 874–877. Thermodynamics of the Relationship between Lattice Energy and Lattice Enthalpy. Jenkins, H. D. June, 950–952. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. Salter, G.; Range, K.; Salter, C. February, 297–298.

Thin-Layer Chromatography Comparative Methylation of 1,8-Dihydroxy-9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. Sereda, G. December, 1839–1840. The Discovery-Oriented Approach to Organic Chemistry. 6. Selective Reduction in Organic Chemistry: Reduction of Aldehydes in the Presence of Esters Using Sodium Borohydride. Baru, A. R.; Mohan, R. S. November, 1674–1675. An Engaging Illustration of the Physical Differences among Menthol Stereoisomers. Treadwell, E. M.; Black, T. H. July, 1046–1048. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. The Virtual Chemlab Project: A Realistic and Sophisticated Simulation of Organic Synthesis and Organic Qualitative Analysis. (TECH) Woodfield, B. F.; Andrus, M. B.; Andersen, T.; Miller, J.; Simmons, B.; Stanger, R.; Waddoups, G. L.; Moore, M. S.; Swan, R.; Allen, R.; Bodily, G. November, 1728–1735.

Titanium Memory Metal. (JCE Classroom Activity) JCE Editorial Staff. October, 1488A–1488B.

Titration / Volumetric Analysis


Toxicology Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Young, J. A. December, 1775.

Transport Properties Applying Chemical Potential and Partial Pressure Concepts To Understand the Spontaneous Mixing of Helium and Air in a Helium-Inflated Balloon. Lee, J.; Yoo, H.; Park, J. S.; Hwang, K.; Kim, J. S. February, 288–290. A Device To Emulate Diffusion and Thermal Conductivity Using Water Flow. (TD) Blanck, H. F. October, 1523–1529. Electrochemistry at Nanometer-Scaled Electrodes. Watkins, J. J.; Zhang, B.; White, H. S. May, 712– 719. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. FríasFerrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. September, 1395–1398. Gas Permeability of Polymers (re J. Chem. Educ. 2005, 82, 288). (Letter) Lunelli, B. October, 1471–1472. Gas Permeability of Polymers—Author Reply (re J. Chem. Educ. 2005, 82, 288). (Letter) Lee, J. October, 1472. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Sublimation of Iodine at Various Pressures. Mutlipurpose Experiments in Inorganic and Physical Chemistry. Leenson, I. A. February, 241–245.

Undergraduate Research

1948

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3D Molecular Symmetry Shockwave: A Web Application for Interactive Visualization and Three-Dimensional Perception of Molecular Symmetry. (JCE WebWare) Charistos, N. D.; Tsipis, C. A.; Sigalas, M. P. November, 1741–1742. ACS National Meeting. Undergraduate Program: San Diego. Byrum, A. March, 362–363. ACS National Meeting. Undergraduate Program: Washington, DC. Byrum, A. August, 1132–1133. Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. ColladoSánchez, C.; Hernández-Brito, J. J.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. February, 271–273. Amino Acid Complementarity: A Biochemical Exemplar of Stoichiometry for General and Health Sciences Chemistry. Vitz, E. July, 1013–1016. Analyzing the 3D Structure of Human Carbonic Anhydrase II and Its Mutants Using Deep View and the Protein Data Bank. (MMEE) Ship, N. J.; Zamble, D. B. December, 1805–1808. An Animated Interactive Overview of Molecular Symmetry. (JCE WebWare) Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1742–1743. Appropriate Use of Blanks, Standards, and Controls in Chemical Measurements. Vitha, M. F.; Carr, P. W.; Mabbott, G. A. June, 901–902. Are We Serious about Preparing Chemists for the 21st Century Workplace or Are We Just Teaching Chemistry? Kerr, S.; Runquist, O. February, 231–233. Authors: Know the Hazards, Please! (re J. Chem. Educ. 2005, 82, 765–768). (Letter) Young, J. A. December, 1775. An Azulene-Based Discovery Experiment: Challenging Students To Watch for the “False Assumption”. Garner, C. M. November, 1686–1688. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. Chemistry of Durable and Regenerable Biocidal Textiles. (POC) Sun, G.; Worley, S. D. January, 60–64. A Chemometrics Module for an Undergraduate Instrumental Analysis Chemistry Course. Msimanga, H. Z.; Elkins, P.; Tata, S. K.; Smith, D. R. March, 415–424. Chiral Crystallization of Ethylenediamine Sulfate. Koby, L.; Ningappa, J. B.; Dakessian, M.; Cuccia, L. A. July, 1043–1045. Cholesterol and Plants. (CIB) Behrman, E. J.; Gopalan, V. December, 1791–1793. Circular Birefringence and Circular Dichroism Simulation. (JCE SymMath) Brown, Z.; Starkey, R. July, 1100. Cis and Trans Isomers of Cycloalkenes. Barrows, S. E.; Eberlein, T. H. September, 1334–1339. Cl2O4 in the Stratosphere. A Module from the Physical Chemistry On-Line Project. (JCE LrnComOnline) Whisnant, D. M.; Lever, L. S.; Howe, J. J. February, 334. Community-Based Research. A New Paradigm for Undergraduate Research in the Sciences. (CUR) Karukstis, K. K. January, 15–16. Computing Liquid–Vapor Phase Diagrams for Non-Ideal Binary Mixtures. (JCE SymMath) Chen, F. M. July, 1100. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Contemporary Moral Problems in Chemistry: Effect of Peer Presentations on Students’ Awareness of Science and Society Issues. (CER) White, H. B., III.; Brown, S. D.; Johnston, M. V. October, 1570–1576. Crystallographic Study of Manganese(III) Acetylacetonate: An Advanced Undergraduate Project with Unexpected Challenges. Geremia, S.; Demitri, N. March, 460–465. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Data Analysis (Damped Oscillations) Using the Genfit Function. (JCE SymMath) Poshusta, R. D. July, 1101. Decomposition of Aspartame. A Kinetics Experiment for Upper-Level Chemistry Laboratories. Williams, K. R.; Adhyaru, B.; Timofeev, J.; Blankenship, M. K. June, 924–925. Demonstrating Encapsulation and Release: A New Take on Alginate Complexation and the Nylon Rope Trick. (TD) Friedli, A. C.; Schlager, I. R. July, 1017–1020.

Are Some Elements More Equal Than Others? (Commentary) Rich, R. L. December, 1761–1763. Combined 31P and 1H NMR Experiments in the Structural Elucidation of Polynuclear Thiolate Complexes. Cerrada, E.; Laguna, M. April, 630–633. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557. The Meaning of d-Orbital Labels. Ashkenazi, G. February, 323–324. Predicting the Atomic Weights of the Trans-Lawrencium Elements: A Novel Application of Dobereiner’s Triads. Ibrahim, S. A. November, 1658–1659. Trends in Ionization Energy of Transition-Metal Elements. Matsumoto, P. S. November, 1660–1661.

Sequential-Injection Analysis: Principles, Instrument Construction, and Demonstration by a Simple Experiment. (TICI) Economou, A.; Tzanavaras, P. D.; Themelis, D. G. December, 1820–1822. A Simple Low-Cost Lock-In Amplifier for the Laboratory. (TICI) Sengupta, S. K.; Farnham, J. M.; Whitten, J. E. September, 1399–1401.

Topics in Chemical Instrumentation

Upper-Division Undergraduate

Transition Elements

Communicating the Importance of Undergraduate Research to Legislators. (CUR) Karukstis, K. K. September, 1279–1280. Community-Based Research. A New Paradigm for Undergraduate Research in the Sciences. (CUR) Karukstis, K. K. January, 15–16. Electropolymerized Conducting Polymer as Actuator and Sensor Device. An Undergraduate Electrochemical Laboratory Experiment. Cortés Montañez, M. T.; Moreno Piraján, J. C. September, 1372–1373. Hands-On Classroom Photolithography Laboratory Module To Explore Nanotechnology. Stelick, S. J.; Alger, W. H.; Laufer, J. S.; Waldron, A. M.; Batt, C. A. September, 1361–1364. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389. On-Site Reviews and Institutes To Assess and Strengthen Undergraduate Departments and Programs. (CUR) Karukstis, K. K.; Rowlett, R. April, 512–513. Professional Infrastructure for Supporting the Undergraduate Research Enterprise on Campus. (CUR) Karukstis, K. K.; Sienerth, K. D.; Farnsworth, F. V. June, 825–826. Showcasing Successful Practices That Enhance a Research-Supportive Undergraduate Curriculum. (CUR) Karukstis, K. K. October, 1440–1441. Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. Getzler, Y. D.; Schmidt, J. A.; Coates, G. W. April, 621–624.

Addendum to “Laser-Pointer-Based Spectrometer for Endpoint Detection of EDTA Titrations”. (Letter) Dahm, C. E. May, 683. Analysis of OxiClean: An Interesting Comparison of Percarbonate Stain Removers. Bracken, J. D.; Tietz, D. May, 762–764. A Closer Look at Acid–Base Olfactory Titrations. Neppel, K.; Oliver-Hoyo, M. T.; Queen, C.; Reed, N. April, 607–610. Exploring Chemical Analysis, 3rd Edition (by Daniel C. Harris). (BMR) Steehler, J. K. May, 685. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488. On Teaching Ionic Activity Effects: What, When, and Where? de Levie, R. June, 878–884. A Quantitative Examination of Multiple Methods for Standardizing a Dilute Hydrochloric Acid Solution in an Undergraduate Chemistry Laboratory. Meagher, N. E.; Bowens, D. B.; Clark, B. S. March, 428–434.



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An Industrial Chemistry Course That Optimizes the Value of Plant Tours. Hartman, J. S. February, 234– 239. Instrumental Proficiency Program for Undergraduates. Weisshaar, D. E.; Earl, G. W.; Hanson, M. P.; Viste, A. E.; Kintner, R. R.; Duffy-Matzner, J. L. June, 898– 900. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 453–455. Introducing JCE LivTexts: Physical Chemistry. (JCE LivTexts) Zielinski, T. J. December, 1880. The Introduction of High-Throughput Experimentation Methods for Suzuki–Miyaura Coupling Reactions in University Education. Hoogenboom, R.; Meier, M. A.; Schubert, U. S. November, 1693–1696. Introduction to Biological Mass Spectrometry: Determining Identity and Species of Origin of Two Proteins. Reimann, C. T.; Mie, A.; Nilsson, C.; Cohen, A. August, 1215–1218. Introduction to Protein and Peptide Analysis with Mass Spectrometry (by Fred Klink). (BMR) Harvey, D. T. July, 1003–1004. Introduction to Quantum Mechanics: in Chemistry, Material Science, and Biology (by S. M. Blinder). (BMR) Dunn, K. M. March, 383–386. An Introduction to Statistical Mechanics. (JCE SymMath) Francl, M. M. January, 175. Ionic Activity Effects in Reaction Kinetics: What Happened to the Parsimony Principle? de Levie, R. June, 885–888. JavaScript Programs To Calculate Thermodynamic Properties Using Cubic Equations of State. (JCE WebWare) Barrie, P. J. June, 958–959. Just Click It: Undergraduate Procedures for the Copper(I)-Catalyzed Formation of 1,2,3-Triazoles from Azides and Terminal Acetylenes. Sharpless, W. D.; Wu, P.; Hansen, T. V.; Lindberg, J. G. December, 1833–1836. Kmonodim, a Program for the Numerical Solution of the One-Dimensional Schrödinger Equation. Angeli, C.; Borini, S.; Cimiraglia, R. May, 795–800. A Lattice Energy Spreadsheet. (JCE WebWare) King, C. October, 1584. Learning Molecular Geometry and Symmetry through Quantum Computations and Mathcad Exercises. (JCE SymMath) Chen, F. M. January, 174. A LED Microtiter Plate Reader. Gordon, J. S.; Tye, S. June, 903–905. Let’s Drive “Driving Force” Out of Chemistry. (Commentary) Craig, N. C. June, 827–828. Measuring Gas-Phase Basicities of Amino Acids Using an Ion Trap Mass Spectrometer. A Physical Chemistry Laboratory Experiment. Sunderlin, L. S.; Ryzhov, V.; Keller, L. M.; Gaillard, E. R. July, 1071–1073. Medicinal Chemistry and Molecular Modeling: An Integration To Teach Drug Structure–Activity Relationship and the Molecular Basis of Drug Action. (MMEE) Carvalho, I.; Borges, Á. D.; Bernardes, L. S. April, 588–596. Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. Microscopic Description of Le Châtelier Principle. Novak, I. August, 1190–1191. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. Misconceptions in Sign Conventions: Flipping the Electric Dipole Moment. Hovick, J. W.; Poler, J. C. June, 889. The Moment. Di Raddo, P. July, 984. Monitoring Particle Growth: Light Scattering Using Red and Violet Diode Lasers. Ahn, H.; Whitten, J. E. June, 909–911. Monitoring the Rate of Solvolytic Decomposition of Benzenediaonium Tetrafluoroborate in Aqueous Media Using a pH Electrode. Wiseman, F. L. December, 1841. Monoterpene Unknowns Identified Using IR, 1H-NMR, 13C-NMR, DEPT, COSY, and HETCOR. Alty, L. T. September, 1387–1389. Multi-Choice Enzymatic Resolutions of Racemic Secondary Alcohols Using Candida antarctica Lipase B. A Collaborative Experiment for Advanced Undergraduates. Rebolledo, F.; Liz, R. June, 930–933. Nantribology: Rubbing on a Small Scale. Dickinson, J. T. May, 734–742. A Networked NMR Spectrometer: Configuring a Shared Instrument. Alonso, D. E.; Mutch, G. W.; Wong, P.; Warren, S. E.; Barot, B.; Kosinski, J.; Sinton, M. Sep-

Demonstrating Energy Migration in Coupled Oscillators: A Central Concept in the Theory of Unimolecular Reactions. (TD) Marcotte, R. E. October, 1530–1531. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. December, 1815–1819. Determination of the Rotational Barrier in Ethane by Vibrational Spectroscopy and Statistical Thermodynamics. (ACL) Ercolani, G. November, 1703–1708. Development of a Multiple-Element Flame Emission Spectrometer Using CCD Detection. Seney, C. S.; Sinclair, K. V.; Bright, R. M.; Momoh, P. O.; Bozeman, A. D. December, 1826–1829. A Device To Emulate Diffusion and Thermal Conductivity Using Water Flow. (TD) Blanck, H. F. October, 1523–1529. Differentiations of Enantiomers via Their Diastereomeric Association Complexes—There Are Two Ways of Shaking Hands. Mannschreck, A.; Kiesswetter, R. July, 1034–1039. Displacements of Brownian Particles in Terms of Marian von Smoluchowski’s Heuristic Model. Klein, H.; Woermann, D. November, 1642–1644. Dynamic and Equilibrium Adsorption Experiments. Fernandes, D. L.; Xavier, A. M.; Portugal, I.; Da Silva, F. A.; Silva, C. M. June, 919–923. Electrochemical Fabrication of Metallic Quantum Wires. Tao, N. May, 720–726. Electrochemistry at Nanometer-Scaled Electrodes. Watkins, J. J.; Zhang, B.; White, H. S. May, 712– 719. Electron Tunneling, a Quantum Probe for the Quantum World of Nanotechnology. Hipps, K. W.; Scudiero, L. May, 704–711. Enthalpy of Vaporization by Gas Chromatography: A Physical Chemistry Experiment. Ellison, H. R. July, 1086–1088. The Entrance and Exit Effects in Small Electrochemical Filter-Press Reactors Used in the Laboratory. FríasFerrer, A.; González-García, J.; Sáez, V.; Expósito, E.; Sánchez-Sánchez, C. M.; Montiel, V.; Aldaz, A.; Walsh, F. C. September, 1395–1398. Equilibria That Shift Left upon Addition of More Reactant. Lacy, J. E. August, 1192–1193. Equilibrium Constants and Water Activity. (Letter) Keeports, D. July, 999. An Experimental Introduction to Interlaboratory Exercises in Analytical Chemistry. Puignou, L.; Llauradó, M. July, 1079–1081. Exploring the Uncertainty Principle. (JCE SymMath) Chen, F. M. July, 1101. Factors Affecting the Relative Efficiency of General Acid Catalysis. (ACL) Kwan, E. E. July, 1026–1030. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. First-Order or Second-Order Kinetics? A Monte Carlo Answer. Tellinghuisen, J. November, 1709–1714. FTIR Determination of Pollutants in Automobile Exhaust: An Environmental Chemistry Experiment Comparing Cold-Start and Warm-Engine Conditions. Medhurst, L. J. February, 278–281. Getting Physical with Your Chemistry: Mechanically Investigating Local Structure and Properties of Surfaces with the Atomic Force Microscope. Heinz, W. F.; Hoh, J. H. May, 695–703. Global Least-Squares Analysis of the IR Rotation–Vibration Spectrum of HCl. Tellinghuisen, J. January, 150– 156. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. Growth Kinetics and Modeling of ZnO Nanoparticles. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. May, 775–778. Halide (Cl᎑) Quenching of Quinine Sulfate Fluorescence: A Time-Resolved Fluorescence Experiment for Physical Chemistry. Gutow, J. H. February, 302–305. Hydrolysis of Pentaamminechlorocobalt(III): A Unified Mechanistic View. González-Ferrer, G.; Martínez López, M. November, 1671–1673. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557.

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tember, 1342–1344. A New Exploration of the Torsional Energy Surface of n-Pentane Using Molecular Models and Molecular Modeling Software. Galembeck, S. E.; Caramori, G. F.; Romero, J. R. December, 1800–1804. A Note on Dalton’s Law: Myths, Facts, and Implementation. Missen, R. W.; Smith, W. R. August, 1197– 1201. On Teaching Ionic Activity Effects: What, When, and Where? de Levie, R. June, 878–884. Organic Chemistry: An Intermediate Text, Second Edition (by Robert V. Hoffman). (BMR) Waddell, T. G. February, 215–216. Physical Chemistry at the Nanometer Scale. Hipps, K. W. May, 693–694. Plastic Antibodies: Molecular Recognition with Imprinted Polymers. An Introductory Polymer Chemistry Laboratory Investigation. Rushton, G. T.; Furmanski, B. D.; Shimizu, K. D. September, 1374– 1377. Polypyrazolylborates: Scorpionates. (POC) Trofimenko, S. November, 1715–1720. Positive and Negative Temperatures in a Two-Level System: Thermodynamic and Statistical–Mechanical Perspectives. (ACL) Masthay, M. B.; Fannin, H. B. June, 867–873. Procedure for Decomposing a Redox Reaction into HalfReactions. Fishtik, I.; Berka, L. H. April, 553–557. Properties of the Lanthanide Metals: Correlations and Discontinuities (re J. Chem. Educ. 2005, 82, 473– 483). (Letter) Laing, M. November, 1623. Protein Unfolding Coupled to Ligand Binding: Differential Scanning Calorimetry Simulation Approach. (CIB) Celej, M. S.; Fidelio, G. D.; Dassie, S. A. January, 85–92. Quantitation of Phenol Levels in Oil of Wintergreen Using Gas Chromatography–Mass Spectrometry with Selected Ion Monitoring. A Quantitative Analysis Laboratory Experiment. Sobel, R. M.; Ballantine, D. S.; Ryzhov, V. April, 601–603. The Quantitative Determination of Butylated Hydroxytoluene in Chewing Gum Using GC–MS. Witter, A. E. October, 1538–1541. Quantitative Determination of the Rotameric Energy Differences of 1,2-Dihaloethanes Using Raman Spectroscopy. An Experimental Project for the Physical Chemistry Laboratory. Young, M. D.; Borjemscaia, N. C.; Wladkowski, B. D. June, 912–915. Quantitative Thermodynamic Descriptions of Aromaticity. A Computational Exercise for the Organic Chemistry Laboratory. (MMEE) Gavin, T. June, 953–957. Quantum Dots: An Experiment for Physical or Materials Chemistry. Winkler, L. D.; Arceo, J. F.; Hughes, W. C.; DeGraff, B. A.; Augustine, B. H. November, 1700–1702. Quantum States of Atoms and Molecules. (JCE LivTexts) Hanson, D. M.; Zielinski, T. J.; Harvey, E.; Sweeney, R. December, 1880. Reaction to “Chemistry Is Not a Laboratory Science” (re J. Chem. Educ. 2004, 81, 1257). (Letter) Sacks, L. J. July, 997. The Rearrangement of an Allylic Dithiocyanate. An Experiment for Organic or Physical Chemistry Using NMR Analysis. Emerson, D. W.; Steinberg, S. M.; Titus, R. L. March, 466–467. Reduction of Ilmenite with Charcoal. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 456–459. Reduction of Iodine by Phosphorus(I): Integration of the Rate Equation. Kustin, K.; Ross, E. W. September, 1413–1417. The Relation of Temperature to Energy. King, C. June, 861–866. The Relationship between Balancing Reactions and Reaction Lifetimes: A Consideration of the Potassium– Argon Radiometric Method for Dating Minerals. Howard, W. A. July, 1094–1098. Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements. Thayer, J. S. November, 1721–1727. Rotor-shaped Cyclopentadienyltetraphenylcyclobutadienecobalt. An Advanced Inorganic Experiment. MacFarland, D. K.; Gorodetzer, R. January, 109–110. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. November, 1697–1699. An SDS–PAGE Examination of Protein Quaternary Structure and Disulfide Bonding for a Biochemistry Laboratory. Powers, J. L.; Andrews, C. S.; St. Antoine, C. C.; Jain, S. S.; Bevilacqua, V. L. January, 93–95. Self-Consistent Field Calculations on Atoms Using Ex-


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cel. (ACL) Hoffman, G. G. September, 1418–1422. A Sensitive Nitrate Ion-Selective Electrode from a Pencil Lead: An Analytical Laboratory Experiment. (CET) Bendikov, T. A.; Harmon, T. C. March, 439–441. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. Bazzi, A.; Kreuz, B.; Wuokila, J.; Maqboul, A. March, 435–438. Sequential-Injection Analysis: Principles, Instrument Construction, and Demonstration by a Simple Experiment. (TICI) Economou, A.; Tzanavaras, P. D.; Themelis, D. G. December, 1820–1822. A Simple Reduction Process for the Normal Vibrational Modes Occurring in Linear Molecules. McInerny, W. J. January, 140–144. Simplex Optimization of Headspace-Enrichment Conditions of Residual Petroleum Distillates Used by Arsonists. Warnke, M. M.; Erickson, A. E.; Smith, E. T. July, 1082–1085. Single-Molecule Electronic Measurements with Metal Electrodes. Lindsay, S. May, 727–733. Single-Slit Diffraction and the Uncertainty Principle. Rioux, F. August, 1210. Some Observations on Molecular Orbital Theory. Harrison, J. F.; Lawson, D. B. August, 1205–1209. Species Distribution Diagrams in the Copper–Ammonia System: An Updated and Expanded Demonstration Illustrating Complex Equilibria. Johnson, A. R.; McQueen, T. M.; Rodolfa, K. T. March, 408–414. Spectacular Breeding of Crystals on Silica Gel. Piekos, R.; Teodorczyk, J. March, 448–449. Spectrophotometric Determination of the Dissociation Constant of an Acid–Base Indicator Using a Mathematical Deconvolution Technique. Alter, K. P.; Molloy, J. L.; Niemeyer, E. D. November, 1682–1685. Spectrophotometric Determination of the Hole Concentration in the Superconductor YBa2Cu3O7᎑x: An Undergraduate Experiment. Hoppé, J. I.; Malati, M. A. February, 299–301. The Stereochemistry of Biochemical Molecules: A Subject to Revisit. Centelles, J. J.; Imperial, S. January, 75–78. Stereogenic Centers and Axes: A Comparison of the Chiral Topologies Available to Cabcd and abC=C=Ccd. Lloyd-Williams, P.; Giralt, E. July, 1031–1033. Strange Fizzical Attraction. 2004 James Flack Norris Award, sponsored by the Northeastern Section of the ACS. (Award Address) Zare, R. N. May, 673–675. Structure-Based Design and In Silico Virtual Screening of Combinatorial Libraries. A Combined Chemical– Computational Project. Baudry, J.; Hergenrother, P. J. June, 890–894. Supercritical Fluid Facilitated Growth of Copper and Aluminum Oxide Nanoparticles. Williams, G. L.; Vohs, J. K.; Brege, J. J.; Fahlman, B. D. May, 771– 774. Symbolic Mathematics Documents Large and Small. (JCE SymMath) Zielinski, T. J. July, 1099–1100. Synthesis of an Epoxide Carbonylation Catalyst: Exploration of Contemporary Chemistry for Advanced Undergraduates. Getzler, Y. D.; Schmidt, J. A.; Coates, G. W. April, 621–624. Teaching Biochemistry at a Minority-Serving Institution: An Evaluation of the Role of Collaborative Learning as a Tool for Science Mastery. Peters, A. W. April, 571– 574. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. Antler, M.; Salin, E.; Wilczek-Vera, G. March, 425–427. Temperature Dependence of Viscosities of Common Carrier Gases. Sommers, T. S.; Nahir, T. M. July, 1089–1090. Template Synthesis and Magnetic Manipulation of Nickel Nanowires. Bentley, A. K.; Farhoud, M.; Ellis, A. B.; Lisensky, G. C.; Nickel, A. L.; Crone, W. C. May, 765–768. Testing for Genetically Modified Foods Using PCR. Taylor, A. T.; Sajan, S. April, 597–598. Thermodynamic Calculation of Work for Some Irreversible Processes. Bertrand, G. L. June, 874–877. Thermodynamics of the Relationship between Lattice Energy and Lattice Enthalpy. Jenkins, H. D. June, 950–952. Toys in the Classroom. Sarquis, J. L.; Sarquis, A. M. October, 1450–1453. Understanding Least Squares through Monte Carlo Calculations. Tellinghuisen, J. January, 157–166. The Use of the Free, Open-Source Program Jmol To

Generate an Interactive Web Site To Teach Molecular Symmetry. Cass, M. E.; Rzepa, H. S.; Rzepa, D. R.; Williams, C. K. November, 1736–1740. Using “Basic Principles” To Understand Complex Science: Nicotine Smoke Chemistry and Literature Analogies. Seeman, J. I. October, 1577–1583. Using a Computer To Help Understand How Symmetry Principles Reduce Calculations. (JCE SymMath) Kijewski, L. January, 174. Variable Effects during Polymerization. Lunsford, S. K. December, 1830–1832. A Virtual Instrument Panel and Serial Interface for the Parr 1672 Thermometer. Salter, G.; Range, K.; Salter, C. February, 297–298. Viscosity by Fluorescence Depolarization of Probe Molecules. A Physical Chemistry Laboratory Experiment. Windisch, C. F., Jr.; Exarhos, G. J.; Sharma, S. K. June, 916–918. What Is a Reaction Rate? Schmitz, G. July, 1091–1093. Where Should the Nuclei Be Located? Liu, Y.; Liu, Y.; Drew, M. February, 320–322.

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Microscale Synthesis and 1H NMR Analysis of ZnII and NiII Tetraphenylporphyrins. (ML) Saucedo, L.; Mink, L. M. May, 790. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. A Passive Sampler for Determination of Nitrogen Dioxide in Ambient Air. (CET) Xiao, D.; Lin, L.; Yuan, H.; Choi, M. M.; Chan, W. August, 1231–1233. Preparation, Analysis, and Characterization of Some Transition Metal Complexes—A Holistic Approach. Blyth, K. M.; Mullings, L. R.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. November, 1667– 1670. Research Advances: Perchlorate in Dairy and Breast Milk Samples; NO Glow on Mars; Physical Chemistry to the Rescue: Differentiating Nicotinic and Cholinergic Agonists. (ROJResAdv) King, A. G. July, 970–973. A Safer, Easier, Faster Synthesis for CdSe Quantum Dot Nanocrystals. Boatman, E. M.; Lisensky, G. C.; Nordell, K. J. November, 1697–1699. Simple and Inexpensive Computer Interface to a Durrum Stopped-Flow Apparatus Tested Using the Iron(III)– Thiocyanate Reaction. (CBB) Hoag, C. M. December, 1823–1825. A Simple Method for Measuring Ground-Level Ozone in the Atmosphere. Seeley, J. V.; Bull, A. W.; Fehir, R. J., Jr.; Cornwall, S.; Knudsen, G. A.; Seeley, S. K. February, 282–285. Spectrophotometric Determination of the Dissociation Constant of an Acid–Base Indicator Using a Mathematical Deconvolution Technique. Alter, K. P.; Molloy, J. L.; Niemeyer, E. D. November, 1682–1685. Spectrophotometric Determination of the Hole Concentration in the Superconductor YBa2Cu3O7᎑x: An Undergraduate Experiment. Hoppé, J. I.; Malati, M. A. February, 299–301. Synthesis and Physical Properties of Liquid Crystals: An Interdisciplinary Experiment. Van Hecke, G. R.; Karukstis, K. K.; Li, H.; Hendargo, H. C.; Cosand, A. C.; Fox, M. M. September, 1349–1354. Teaching Data Acquisition. An Undergraduate Experiment in the Advanced Analytical Chemistry Laboratory. Antler, M.; Salin, E.; Wilczek-Vera, G. March, 425–427. Testing for Ultraviolet Toxicity Using Fungi. Vital, M.; Esperón, P. June, 926–929. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554. “You’re Repulsive!”—Teaching VSEPR in a Not-So-Elegant Way. Liu, R. S. April, 558–560.

UV–Vis Spectroscopy Analog Spectrophotometers in the Digital Age: Data Acquisition on a Budget. (CET) Nazarenko, A. Y.; Nazarenko, N. A. February, 294–296. Analysis of Phosphoric Acid Content in Popular Carbonated Drinks (re J. Chem. Educ. 1996, 73, 1173–1174). (Letter) Rodgers, J.; Koether, M. C. October, 1471. Bond Length Dependence on Quantum States as Shown by Spectroscopy. Lim, K. F. January, 145–149. Catalytic Oxygen Evolution by a Bioinorganic Model of the Photosystem II Oxygen-Evolving Complex. Howard, D. L.; Tinoco, A. D.; Brudvig, G. W.; Vrettos, J. S.; Allen, B. C. May, 791–794. A Chemometrics Module for an Undergraduate Instrumental Analysis Chemistry Course. Msimanga, H. Z.; Elkins, P.; Tata, S. K.; Smith, D. R. March, 415–424. Comparative Methylation of 1,8-Dihydroxy-9,10-anthraquinone: Chemoselectivity in the Organic Chemistry Laboratory. Sereda, G. December, 1839–1840. Cotton Effect in Copper–Proline Complexes in the Visible Region. Volkov, V.; Pfister, R. November, 1663– 1666. Cytochrome c: A Biochemistry Laboratory Course. Vincent, J. B.; Woski, S. A. August, 1211–1214. Determination of Hypochlorite in Bleaching Products with Flower Extracts To Demonstrate the Principles of Flow Injection Analysis. Ramos, L. A.; Prieto, K. R.; Cavalheiro, É. T.; Cavalheiro, C. S. December, 1815–1819. Early Spectroscopy and the Balmer Lines of Hydrogen (re J. Chem. Educ. 2003, 80, 1003). (Letter) Wagner, H. J. March, 380. Early Spectroscopy and the Balmer Lines of Hydrogen— Author Reply (re J. Chem. Educ. 2003, 80, 1003). (Letter) Retcofsky, H. L. March, 380. Equilibrium Gel Filtration Chromatography for the Measurement of Protein–Ligand Binding in the Undergraduate Biochemistry Laboratory. Craig, D. B. January, 96–98. FIA-Spectrophotometric Method for Determination of Nitrite in Meat Products: An Experiment Exploring Color Reduction of an Azo-Compound. Penteado, J. C.; Angnes, L.; Masini, J. C.; Oliveira, P. C. July, 1074–1078. A Green Starting Material for Electrophilic Aromatic Substitution for the Undergraduate Organic Laboratory. (GRN) Jones-Wilson, T. M.; Burtch, E. A. April, 616–617. Growth Kinetics and Modeling of ZnO Nanoparticles. Hale, P. S.; Maddox, L.; Shapter, J. G.; Voelcker, N. H.; Ford, M. J.; Waclawik, E. R. May, 775–778. Hydrolysis of Pentaamminechlorocobalt(III): A Unified Mechanistic View. González-Ferrer, G.; Martínez López, M. November, 1671–1673. Kinetics of Alcohol Dehydrogenase-Catalyzed Oxidation of Ethanol Followed by Visible Spectroscopy. Bendinskas, K.; DiJiacomo, C.; Krill, A.; Vitz, E. July, 1068–1070. Laboratory Experiments on the Electrochemical Remediation of the Environment. Part 8. Microscale Photocatalysis. (ML) Ibañez, J. G.; Mena-Brito, R.; Fregoso-Infante, A. October, 1549–1551. A LED Microtiter Plate Reader. Gordon, J. S.; Tye, S. June, 903–905. Making and Using a Sensing Polymeric Material for Cu2+. An Introduction to Polymers and Chemical Sensing. Paddock, J. R.; Maghasi, A. T.; Heineman, W. R.; Seliskar, C. J. September, 1370–1371.


View from My Classroom The Match Game: A Discovery of the Laboratory Equipment Used in General Chemistry. (VIEW) Greengold, S. L. April, 547–548. Putting A Human Face on Equilibrium. (VIEW) Glickstein, N. March, 391–392. Student Opinions Regarding Inquiry-Based Labs. (VIEW) Deters, K. M. August, 1178–1180.

Vitamins Our Everyday Cup of Coffee: The Chemistry behind Its Magic. (POC) Petracco, M. August, 1161–1167. A Salicylate Sympathetic Ink from Consumer Chemicals. (TD) Wright, S. W. April, 542–544. The Stereochemistry of Biochemical Molecules: A Subject to Revisit. Centelles, J. J.; Imperial, S. January, 75–78.

VSEPR Theory Balloon–Toy of Many Colors. (FPI) Williams, K. R. October, 1448–1449. “You’re Repulsive!”—Teaching VSEPR in a Not-So-Elegant Way. Liu, R. S. April, 558–560.

Water / Water Chemistry Analysis of Natural Buffer Systems and the Impact of Acid Rain. An Environmental Project for First-Year Chemistry Students. Powers, D. C.; Higgs, A. T.; Obley, M. L.; Leber, P. A.; Hess, K. R.; Yoder, C. H. February, 274–277. Conceptual Considerations in Molecular Science. (Commentary) Sawyer, D. T. July, 985–987. Equilibrium Constants and Water Activity. (Letter)

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Volume 82 • 2005 • Book Review Index

Water Wordsearch. Helser, T. L. April, 551. You Be the Chemist Kit (by Chemical Educational Foundation). (BMR) Harris, H. H. April, 530–531.

Keeports, D. July, 999. Hard Water and Soft Soap: Dependence of Soap Performance on Water Hardness. A Classroom Demonstration. (TD) Osorio, V. K.; de Oliveira, W.; El Seoud, O. A. February, 257–259. The Nature of Hydrogen Bonding. (JCE Classroom Activity) Schultz, E. March, 400A–400B. Sedimentation Time Measurements of Soil Particles by Light Scattering and Determination of Chromium, Lead, and Iron in Soil Samples via ICP. Todebush, P. M.; Geiger, F. M. October, 1542–1545. Separation and Determination of Cr(III) and Cr(VI) with Cation-Exchange Chromatography and Atomic Absorption Spectroscopy. An Experiment for Quantitative Methods of Analysis. Bazzi, A.; Kreuz, B.; Wuokila, J.; Maqboul, A. March, 435–438. Simple Dynamic Models for Hydrogen Bonding Using Velcro-Polarized Molecular Models. Schultz, E. March, 401–405. Thermal Expansion: Using Calculator-Based Laboratory Technology To Observe the Anomalous Behavior of Water. Branca, M.; Soletta, I. April, 613–615. Using Visible Spectrophotometers and pH Measurements To Study Speciation in a Guided-Inquiry Laboratory. Otto, W.; Larive, C. K.; Mason, S. L.; BondRobinson, J.; Heppert, J. A.; Ellis, J. D. October, 1552–1554.

Women in Chemistry Based on a True Story: Using Movies as Source Material for General Chemistry Reports. Griep, M. A.; Mikasen, M. L. October, 1501–1503. COAChing Women To Succeed in Academic Careers in the Chemical Sciences. Richmond, G. L. March, 351– 353. An Interactive Analytical Chemistry Summer Camp for Middle School Girls. (CFK) Robbins, M. E.; Schoenfisch, M. H. October, 1486–1488.

X-ray Crystallography Crystallographic Study of Manganese(III) Acetylacetonate: An Advanced Undergraduate Project with Unexpected Challenges. Geremia, S.; Demitri, N. March, 460–465. Glycosyltransferases A and B: Four Critical Amino Acids Determine Blood Type. (CIB) Rose, N. L.; Palcic, M. M.; Evans, S. V. December, 1846–1853. The Incorporation of Single Crystal X-ray Diffraction into the Undergraduate Chemistry Curriculum Using

Internet-Facilitated Remote Diffractometer Control. Szalay, P.; Zeller, M.; Hunter, A. D. October, 1555– 1557. Intercalates—Exciting Compounds for Solid-State Chemistry Studies. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 453–455. Reduction of Ilmenite with Charcoal. Blyth, K. M.; Ogden, M. I.; Phillips, D. N.; Pritchard, D.; van Bronswijk, W. March, 456–459.

Zinc Adsorptive Stripping Voltammetry of Environmental Indicators: Determination of Zinc in Algae. ColladoSánchez, C.; Hernández-Brito, J. J.; Pérez-Peña, J.; Torres-Padrón, M. E.; Gelado-Caballero, M. D. February, 271–273. Mass Relationships in a Chemical Reaction: Incorporating Additional Graphing Exercises into the Introductory Chemistry Laboratory. DeMeo, S. August, 1219– 1222. Mineral Analysis of Whole Grain Total Cereal. Hooker, P. August, 1223–1225. Zinc (dust and bulk). (CLIP) Young, J. A. August, 1143. Zinc Nitrate Hexahydrate. (CLIP) Young, J. A. August, 1144.

JCE Index, 1924–2005, available at JCE Online http://www.JCE.DivChed.org/Journal/Search/

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Volume 82 • 2005 • Book Review Index

Book Review Index Organic Chemistry: An Intermediate Text, Second Edition by R. V. Hoffman. (T. G. Waddell) February, 215–216. Our Molecular Future: How Nanotechnology, Robotics, Genetics, and Artificial Intelligence Will Transform Our World by D. Mulhall. (C. B. Frech) May, 685– 686. Polymer Chemistry: Introduction to an Indispensable Science by D. M. Teegarden. (M. S. Matthews) February, 213–214. Polymers by D. Walton and J. Phillip Lorimer. (J. H. Shibata) April, 532–534. Promethean Ambitions: Alchemy and the Quest to Perfect Nature by W. R. Newman. (P. J. Bernal) April, 531–532. Quantal Density Functional Theory by V. Sahni. (L. Massa) October, 1476–1478. Quantum Mechanics: A Conceptual Approach by H. F. Hameka. (M. F. Tuchler) January, 41–43. Solvents and Solvent Effects in Organic Chemistry, Third Edition by C. Reichardt. (R. M. Pagni) March, 382– 383. Strategic Applications of Named Reactions in Organic Synthesis: Background and Detailed Mechanisms by L. Kürti and B. Czakó. (R. W. Holman) December, 1780–1782. Understanding Mass Spectra, A Basic Approach, Second Edition by R. Martin Smith. (B. Boggess) May, 687– 688. Van Nostrand’s Encyclopedia of Chemistry, Fifth Edition edited by G. D. Considine. (J. Kovac) June, 840– 841. The Way of the Teacher by J. M. Haile. (J. Kovac) October, 1476. You Be the Chemist Kit by Chemical Educational Foundation. (H. H. Harris) April, 530–531.

The Book Review Index is divided into Book Titles, Book Authors, and Book Reviewers. Listings include book title, book author, (book reviewer), month, and page number.

Book Titles Analytical Chemistry for Technicians, 3rd Edition by J. Kenkel. (D. T. Harvey) January, 39. The Cartoon Guide to Chemistry by L. Gonick and C. Criddle. (H. H. Harris) December, 1777–1778. The Chemical Bond: A Fundamental Quantum–Mechanical Picture by T. Shida. (A. J. Pounds) July, 1000–1001. Encyclopedia of Analytical Science, Second Edition edited by P. Worsfold, A. Townshend, and C. Poole. (R. Q. Thompson) September, 1313–1314. Environmental Laboratory Exercises for Instrumental Analysis and Environmental Chemistry by F. M. Dunnivant. (M. A. De Jesús) March, 382. Ewing’s Analytical Instrumentation Handbook, 3rd Edition edited by J. Cazes. (J. K. Steehler) September, 1315–1316. Exploring Chemical Analysis, 3rd Edition by D. C. Harris. (J. K. Steehler) May, 685. Faculty Guide for Moving Teaching and Learning to the Web, Second Edition by J. V. Boettcher and R. Conrad. (N. J. Pienta) July, 1000. The Fly in the Ointment: 70 Fascinating Commentaries on the Science of Everyday Life by J. Schwarcz. (W. Conover) December, 1777. Fundamentals of Quantum Chemistry by J. E. House. (M. F. Tuchler) July, 1002–1003. Instant Notes in Inorganic Chemistry, Second Edition by P. A. Cox. (P. M. Smith) February, 213. Instant Notes in Organic Chemistry, 2nd Edition by G. L. Patrick. (T. H. Eberlein) December, 1778–1780. An Introduction to Chemical Kinetics by M. Robson Wright. (M. J. Elrod) January, 40–41. Introduction to Protein and Peptide Analysis with Mass Spectrometry by F. Klink. (D. T. Harvey) July, 1003– 1004. Introduction to Quantum Mechanics: in Chemistry, Material Science, and Biology by S. M. Blinder. (K. M. Dunn) March, 383–386. The Joy of Chemistry: The Amazing Science of Familiar Things by C. Cobb and M. L. Fetterolf. (M. S. Matthews) October, 1475. The Literature of Chemistry: Recommended Titles for Undergraduate Chemistry Library Collections by J. A. Douville. (J. Kovac) August, 1153. Make Your Mark in Science. Creativity, Presenting, Publishing, and Patents. A Guide for Young Scientists by C. Ascheron and A. Kickuth. (J. Kovac) September, 1313. Metal–Ligand Bonding by R. Janes and E. Moore. (L. L. Pesterfield) August, 1153–1154. Modern Spectroscopy, 4th Edition by J. Michael Hollas. (E. W. Castner) January, 43–44. Molecular Diversity and Combinatorial Chemistry: Principles and Applications by M. C. Pirrung. (R. David Crouch) August, 1154–1156. Name Reactions and Reagents in Organic Synthesis, 2nd Ed. by B. P. Mundy, M. G. Ellerd, and F. G. Favaloro. (R. W. Holman) December, 1780–1782. Named Organic Reactions, 2nd Ed. by T. Laue and A. Plagens. (R. W. Holman) December, 1780–1782. Nanophysics and Nanotechnology: An Introduction to Modern Concepts in Nanoscience by E. L. Wolf. (F. L. Somer) November, 1625–1626. Organic Chemistry at a Glance by L. M. Harwood, J. E. McKendrick, and R. C. Whitehead. (E. Eugene Gooch) June, 841–842. The Organic Chemistry of Biological Pathways by J. E. McMurry and T. P. Begley. (A. M. Rosan) November, 1626–1628.

www.JCE.DivCHED.org

Book Authors Ascheron, C.; Kickuth, A. Make Your Mark in Science. Creativity, Presenting, Publishing, and Patents. A Guide for Young Scientists (J. Kovac) September, 1313. Begley, T. P.; McMurry, J. E. The Organic Chemistry of Biological Pathways (A. M. Rosan) November, 1626– 1628. Blinder, S. M. Introduction to Quantum Mechanics: in Chemistry, Material Science, and Biology (K. M. Dunn) March, 383–386. Boettcher, J. V.; Conrad, R. Faculty Guide for Moving Teaching and Learning to the Web, Second Edition (N. J. Pienta) July, 1000. Chemical Educational Foundation. You Be the Chemist Kit (H. H. Harris) April, 530–531. Cobb, C.; Fetterolf, M. L. The Joy of Chemistry: The Amazing Science of Familiar Things (M. S. Matthews) October, 1475. Conrad, R.; Boettcher, J. V. Faculty Guide for Moving Teaching and Learning to the Web, Second Edition (N. J. Pienta) July, 1000. Cox, P. A. Instant Notes in Inorganic Chemistry, Second Edition (P. M. Smith) February, 213. Criddle, C.; Gonick, L. The Cartoon Guide to Chemistry (H. H. Harris) December, 1777–1778. Czakó, B.; Kürti, L. Strategic Applications of Named Reactions in Organic Synthesis: Background and Detailed Mechanisms (R. W. Holman) December, 1780– 1782. Douville, J. A. The Literature of Chemistry: Recommended Titles for Undergraduate Chemistry Library Collections (J. Kovac) August, 1153. Dunnivant, F. M. Environmental Laboratory Exercises for Instrumental Analysis and Environmental Chemistry (M. A. De Jesús) March, 382. Ellerd, M. G.; Mundy, B. P.; Favaloro, F. G. Name Reactions and Reagents in Organic Synthesis, 2nd Ed. (R. W. Holman) December, 1780–1782. Favaloro, F. G.; Mundy, B. P.; Ellerd, M. G. Name Reactions and Reagents in Organic Synthesis, 2nd Ed. (R. W. Holman) December, 1780–1782. Fetterolf, M. L.; Cobb, C. The Joy of Chemistry: The Amazing Science of Familiar Things (M. S. Matthews) October, 1475.

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Gonick, L.; Criddle, C. The Cartoon Guide to Chemistry (H. H. Harris) December, 1777–1778. Haile, J. M. The Way of the Teacher (J. Kovac) October, 1476. Hameka, H. F. Quantum Mechanics: A Conceptual Approach (M. F. Tuchler) January, 41–43. Harris, D. C. Exploring Chemical Analysis, 3rd Edition (J. K. Steehler) May, 685. Harwood, L. M.; McKendrick, J. E.; Whitehead, R. C. Organic Chemistry at a Glance (E. Eugene Gooch) June, 841–842. Hoffman, R. V. Organic Chemistry: An Intermediate Text, Second Edition (T. G. Waddell) February, 215– 216. Hollas, J. M. Modern Spectroscopy, 4th Edition (E. W. Castner) January, 43–44. House, J. E. Fundamentals of Quantum Chemistry (M. F. Tuchler) July, 1002–1003. Janes, R.; Moore, E. Metal–Ligand Bonding (L. L. Pesterfield) August, 1153–1154. Kenkel, J. Analytical Chemistry for Technicians, 3rd Edition (D. T. Harvey) January, 39. Kickuth, A.; Ascheron, C. Make Your Mark in Science. Creativity, Presenting, Publishing, and Patents. A Guide for Young Scientists (J. Kovac) September, 1313. Klink, F. Introduction to Protein and Peptide Analysis with Mass Spectrometry (D. T. Harvey) July, 1003– 1004. Kürti, L.; Czakó, B. Strategic Applications of Named Reactions in Organic Synthesis: Background and Detailed Mechanisms (R. W. Holman) December, 1780–1782. Laue, T.; Plagens, A. Named Organic Reactions, 2nd Ed. (R. W. Holman) December, 1780–1782. Lorimer, J. P.; Walton, D. Polymers (J. H. Shibata) April, 532–534. McKendrick, J. E.; Harwood, L. M.; Whitehead, R. C. Organic Chemistry at a Glance (E. Eugene Gooch) June, 841–842. McMurry, J. E.; Begley, T. P. The Organic Chemistry of Biological Pathways (A. M. Rosan) November, 1626– 1628. Moore, E.; Janes, R. Metal–Ligand Bonding (L. L. Pesterfield) August, 1153–1154. Mulhall, D. Our Molecular Future: How Nanotechnology, Robotics, Genetics, and Artificial Intelligence Will Transform Our World (C. B. Frech) May, 685–686. Mundy, B. P.; Ellerd, M. G.; Favaloro, F. G. Name Reactions and Reagents in Organic Synthesis, 2nd Ed. (R. W. Holman) December, 1780–1782. Newman, W. R. Promethean Ambitions: Alchemy and the Quest to Perfect Nature (P. J. Bernal) April, 531– 532. Patrick, G. L. Instant Notes in Organic Chemistry, 2nd Edition (T. H. Eberlein) December, 1778–1780. Pirrung, M. C. Molecular Diversity and Combinatorial Chemistry: Principles and Applications (R. David Crouch) August, 1154–1156. Plagens, A.; Laue, T. Named Organic Reactions, 2nd Ed. (R. W. Holman) December, 1780–1782. Reichardt, C. Solvents and Solvent Effects in Organic Chemistry, Third Edition (R. M. Pagni) March, 382– 383. Sahni, V. Quantal Density Functional Theory (L. Massa) October, 1476–1478. Schwarcz, J. The Fly in the Ointment: 70 Fascinating Commentaries on the Science of Everyday Life (W. Conover) December, 1777. Shida, T. The Chemical Bond: A Fundamental Quantum–Mechanical Picture (A. J. Pounds) July, 1000– 1001. Smith, R. M. Understanding Mass Spectra, A Basic Approach, Second Edition (B. Boggess) May, 687–688. Teegarden, D. M. Polymer Chemistry: Introduction to an Indispensable Science (M. S. Matthews) February, 213–214. Walton, D.; Lorimer, J. P. Polymers (J. H. Shibata) April, 532–534. Whitehead, R. C.; Harwood, L. M.; McKendrick, J. E. Organic Chemistry at a Glance (E. Eugene Gooch) June, 841–842. Wolf, E. L. Nanophysics and Nanotechnology: An


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Book Review Index • Volume 82 • 2005 Introduction to Modern Concepts in Nanoscience (F. L. Somer) November, 1625–1626. Wright, M. R. An Introduction to Chemical Kinetics (M. J. Elrod) January, 40–41.

Book Reviewers Bernal, P. J. Promethean Ambitions: Alchemy and the Quest to Perfect Nature by W. R. Newman. April, 531–532. Boggess, B. Understanding Mass Spectra, A Basic Approach, Second Edition by R. Martin Smith. May, 687–688. Castner, E. W., Jr. Modern Spectroscopy, 4th Edition by J. Michael Hollas. January, 43–44. Conover, W. The Fly in the Ointment: 70 Fascinating Commentaries on the Science of Everyday Life by J. Schwarcz. December, 1777. Crouch, R. D. Molecular Diversity and Combinatorial Chemistry: Principles and Applications by M. C. Pirrung. August, 1154–1156. De Jesús, M. A. Environmental Laboratory Exercises for Instrumental Analysis and Environmental Chemistry by F. M. Dunnivant. March, 382. Dunn, K. M. Introduction to Quantum Mechanics: in Chemistry, Material Science, and Biology by S. M. Blinder. March, 383–386. Eberlein, T. H. Instant Notes in Organic Chemistry, 2nd Edition by G. L. Patrick. December, 1778–1780. Elrod, M. J. An Introduction to Chemical Kinetics by M. Robson Wright. January, 40–41. Frech, C. B. Our Molecular Future: How Nanotechnology, Robotics, Genetics, and Artificial Intelligence Will Transform Our World by D. Mulhall. May, 685–686. Gooch, E. E. Organic Chemistry at a Glance by L. M. Harwood, J. E. McKendrick, and R. C. Whitehead.


June, 841–842. Harris, H. H. The Cartoon Guide to Chemistry by L. Gonick and C. Criddle. December, 1777–1778. Harris, H. H. You Be the Chemist Kit by Chemical Educational Foundation. April, 530–531. Harvey, D. T. Analytical Chemistry for Technicians, 3rd Edition by J. Kenkel. January, 39. Harvey, D. T. Introduction to Protein and Peptide Analysis with Mass Spectrometry by F. Klink. July, 1003– 1004. Holman, R. W. Name Reactions and Reagents in Organic Synthesis, 2nd Ed. by B. P. Mundy, M. G. Ellerd, and F. G. Favaloro. December, 1780–1782. Holman, R. W. Named Organic Reactions, 2nd Ed. by T. Laue and A. Plagens. December, 1780–1782. Holman, R. W. Strategic Applications of Named Reactions in Organic Synthesis: Background and Detailed Mechanisms by L. Kürti and B. Czakó. December, 1780–1782. Kovac, J. The Literature of Chemistry: Recommended Titles for Undergraduate Chemistry Library Collections by J. A. Douville. August, 1153. Kovac, J. Make Your Mark in Science. Creativity, Presenting, Publishing, and Patents. A Guide for Young Scientists by C. Ascheron and A. Kickuth. September, 1313. Kovac, J. Van Nostrand’s Encyclopedia of Chemistry, Fifth Edition by G. D. Considine. June, 840–841. Kovac, J. The Way of the Teacher by J. M. Haile. October, 1476. Massa, L. Quantal Density Functional Theory by V. Sahni. October, 1476–1478. Matthews, M. S. The Joy of Chemistry: The Amazing Science of Familiar Things by C. Cobb and M. L. Fetterolf. October, 1475. Matthews, M. S. Polymer Chemistry: Introduction to an Indispensable Science by D. M. Teegarden.

February, 213–214. Pagni, R. M. Solvents and Solvent Effects in Organic Chemistry, Third Edition by C. Reichardt. March, 382–383. Pesterfield, L. L. Metal–Ligand Bonding by R. Janes and E. Moore. August, 1153–1154. Pienta, N. J. Faculty Guide for Moving Teaching and Learning to the Web, Second Edition by J. V. Boettcher and R. Conrad. July, 1000. Pounds, A. J. The Chemical Bond: A Fundamental Quantum–Mechanical Picture by T. Shida. July, 1000–1001. Rosan, A. M. The Organic Chemistry of Biological Pathways by J. E. McMurry and T. P. Begley. November, 1626–1628. Shibata, J. H. Polymers by D. Walton and J. Phillip Lorimer. April, 532–534. Smith, P. M. Instant Notes in Inorganic Chemistry, Second Edition by P. A. Cox. February, 213. Somer, F. L., Jr. Nanophysics and Nanotechnology: An Introduction to Modern Concepts in Nanoscience by E. L. Wolf. November, 1625–1626. Steehler, J. K. Ewing’s Analytical Instrumentation Handbook, 3rd Edition by J. Cazes. September, 1315–1316. Steehler, J. K. Exploring Chemical Analysis, 3rd Edition by D. C. Harris. May, 685. Thompson, R. Q. Encyclopedia of Analytical Science, Second Edition by P. Worsfold, A. Townshend, and C. Poole. September, 1313–1314. Tuchler, M. F. Fundamentals of Quantum Chemistry by J. E. House. July, 1002–1003. Tuchler, M. F. Quantum Mechanics: A Conceptual Approach by H. F. Hameka. January, 41–43. Waddell, T. G. Organic Chemistry: An Intermediate Text, Second Edition by R. V. Hoffman. February, 215–216.

JCE Index, 1924–2005, available at JCE Online http://www.JCE.DivChed.org/Journal/Search/

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Annual Index for Volume 82, 2005 - Journal of Chemical Education

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