The Journal of
Physical Chemistry
0 Copyrighr 1995 by rhe Amurirnrr (7ronkrrl Socicrr.
VOLUME 99, NUMBER 9, MARCH 2, 1995
Stuart A. Rice This special issue is a token of thanks from his students, colleagues, and friends to Stuart for his seminal role in shaping our perception of the universe of chemistry.
0022-3654/95/2099-2413$09.00/0 0 1995 American Chemical Society
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Biography Stuart Rice has influenced much of the landscape of modem physical chemistry. He was born in New York City on January 6, 1932. His undergraduate degree is from Brooklyn College (1952), and his graduate degrees are from Harvard (AM, 1954; Ph.D., 1955). Stuart was married to Marian Rice (nee Coopersmith) for 42 years until her death in 1994. They have two daughters, Barbara and Janet, and a grandson, Joel. After a two-year spell as a Harvard Junior Fellow (which Stuart spent at Yale with J. G. Kirkwood), Stuart came to The University of Chicago in 1957. His ascent was meteoric: he became Full Professor in 1960 and Director of the Institute for the Study of Metals, which Stuart proposed be renamed the James Franck Institute, in January 1962. He remained Director of the James Franck Institute until 1967. He was Chairman of the Chemistry Department (1971-1976) and serves as Dean of Physical Sciences (1981-present). Stuart has guided the research of numerous graduate students and postdoctoral scientists and set them on course toward future achievements of their own. He has also made important contributions to undergraduate teaching with his innovative and challenging lecture courses, recognized by The University of Chicago with a Quantrell Award for Excellence in Undergraduate Teaching, and through Physical Chemistry written with Steve Berry and John Ross. Among many other professional activities, he is a member of the Board of Governors of Tel Aviv University and of Argonne National Laboratory. On the national level, he was a member of the National Science Board from 1980 to 1986. Stuart is a Fellow of the National Academy of Sciences, the American Academy of Arts and Sciences, and the American Philosophical Society. He is a Foreign Member
of the Royal Danish Academy of Science and Letters and has received honorary degrees from Brooklyn College and Notre Dame University. His many awards include the Pure Chemistry, Leo Hendrik Baekland, Peter Debye, and Joel Henry Hildebrand Awards of the American Chemical Society, the Marlow Medal of the Faraday Society, the Medal of the Universite Libre de Bruxelles, and the Scientific Achievement Award Medal of CUNY, New York. Included among the many honorary lectureships he has held are the Farkas Lecturer (Hebrew University), Kistiakowsky Lecturer (Harvard University), Baker Lecturer (Cornel1 University), and Centenary Lecturer (Royal Society of Chemistry). Throughout Stuart’s extraordinarily productive career in research, teaching, and administration, he has been an advocate for chemistry, both nationally and intemationally, and has helped to set the direction of our science for the years ahead. Graham R. Fleming David Oxtoby JP953449 1
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Scientific Contributions Stuart Rice is one of the most broad ranging and influential chemists of our time. His contributions to science have ranged across virtually the entire domain of modem physical chemistry. His research uses state of the art experimental methods and fundamental theoretical approaches, spanning the broad spectrum from isolated molecules to the condensed phase. His work has consistently been seminal, often constituting the first attack on a new subject and, most characterisitically,always addressing an important research area. Stuart as a scientist is universal, deep and demanding of the highest intellectual standards. His work has had, and continues to have, great influence on the development of chemistry and other related areas of science. One of Stuart’s first major areas of interest addressed the structure of polymers particularly polyelectrolytes. This work provided essential insights into the helix-coil transition and the denaturation of DNA and the retention of the shape of DNA in solution. His monograph Polyelectrolyte Solutions, written with Nagasawa in 1961, continues to be a definitive source today. Another early area to which he made central contributions pertains to the nature of liquids and transport in dense fluids. The Rice-Allnatt theory was a ground-breaking study in the kinetic theory of liquids. His monograph with Gray from 1965, Statistical Mechanics of Simple Liquids, continues to be very influential in the understanding of fluids. Subsequently, he made significant contributions to the basic statistical mechanics of fluids, especially elucidating the role of autocoxrelation functions, the microscopic interpretation of transport coefficients, and more recently the theory of phase transitions. One liquid in particular has occupied him during the last twenty years: water. Stuart’s work on water illustrates his tenacity and his willingness to do whatever needs to be done to understand a phenomenon. He became convinced that one had to separate the static and dynamic effects in order to simplify the problem of water’s behavior enough to make it tractable. He recognized that amorphous ice was probably the proper model for the static properties, so he and his students set out on a difficult but eventually successful adventure to elucidate the structure of amorphous ice. They went on to study the spectra and structure of particularly relevant forms of crystalline ice and to computational studies, which included network studies of the bulk structure at the microscopic level and detailed calculations of pair interactions between nearest-neighbor water molecules. He has combined the early work on excitations in liquids and the results of the studies of water structure to propose collective excitations in water. Another major area of Stuart’s interest encompasses the dynamics of elementary excitations and transport in solids. This work provided the first a-priori calculation of the exciton, electron, and hole band structure of molecular solids, the first calculation of the triplet Davydov splitting, and the first studies of energy delocalized in polymers. This work elucidated the relation between band-like and hopping transport for neutral and charged excitations and had a major impact on the spectroscopy of molecular crystals, including the chemical processes of exciton formation in solids. The integration between fluids and condensed phase chemical physics resulted in important contributions to elementary excitations in fluids. His studies on the motion of excess electrons and ions in liquid helium, and in other liquid and supercritical rare gases, provided the basis for the distinction between localized and quasifree excess electron states in fluids
and for the elucidation of their transport mechanisms. His exploration of elementary excitations in condensed rare gases was extended to obtain the first evidence for excimer formations in liquid and solid rare gases. This work was crucial in the evolution of chemical lasers. His subsequent studies in the field laid the foundations for the theory of exciton states in liquids, providing the f i s t theory of energetics, line shapes, and relaxation of elementary electronic excitations in disordered materials. Regarding elementary excitations in disordered materials, liquid metals have long been an area of experimental and theoretical interest to Stuart. His studies on “reflections in a pool of mercury” initiated the understanding of the nature of electron excitations, the electronic structure, and the atomic structure of liquid metal surfaces and have been woven together into a coherent, increasingly accepted, picture of this inhomogeneous interface. His recent low-angle X-ray diffraction studies have provided the first determination of the density profile of the surface of liquid metals. He has continued to be interested in the properties of interfaces, making recent central contributions to the structure, dynamics, and transport in interfaces. Stuart’s work on the electronic structure of condensed phases was supplemented by his contributions to the understanding of electron-atom and electron-molecule interactions. He developed the first electron-helium atom pseudopotential, which provided the conceptual basis for the understanding of electron localization via bubble formation in liquid helium. Stuart was the first to apply modern pseudopotential methods to the description of the electronic structure of atoms. His work provided the first quantitative description of highly excited Rydberg molecular states. The derivative effective core potential methods are widely used today in molecular electronic structure theory. Stuart’s work on molecular radiationless transitions began in the mid 1960s. At that time, only a few conjectures were available to explain apparent deep inconsistencies between lifetimes and intensities. Stuart was a pioneer in addressing these problems, transforming the theory into a quantitative predictive understanding of these ubiquitous processes in photochemistry and biology. It was inevitable that he would move into basic studies, pertaining to the relation between quantum and classical systems. Related to the problem of radiationless transitions is that of vibrational energy flow among vibrations of polyatomic molecules. Stuart pioneered the concept of quantum ergodicity, introducing such ideas as the relevance of the Kolmogorov- Amold-Moser entropy, and was a pioneer in the now flourishing area considering the role of chaos in intramolecular vibrational energy flow. His experimental work in this area demonstrated the existence of very large vibrational relaxation rates in very low energy collisions, opening a new field of investigation. In the 198Os, Stuart was engaged in picosecond studies of intramolecular energy transfer. Stuart brought concepts of quantum chaos to bear on these processes, exploring the connection between survival probability of nonstationary states and quantum ergodicity. His investigations on pyrazine provided perhaps the first unified treatment of vibrational wavepacket motion with time dependent fields. This approach was extended to a variety of more complex spectroscopies, e.g., CARS and photon echoes. At the same time, Stuart began
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exploring the related, but philosophically very different, question of active control of molecular motion using ultrashort pulses. Stuart’s contention, perhaps stemming from his long-standing interest in statistical mechanics, was that as long as the phase, Le., the vibrational coherence, of the system survived there could be no chaos, and that optical control must in turn be possible. He embarked on both a theoretical and experimental program to design tailored pulse sequences to control the outcome of photochemical reactions. The first attempts involved a simple two-pulse pump-dump sequence, in which the time delay between pulses was the control parameter. Soon after, he began exploring more general pulse shapes and sequences, initially using an optimization procedure based on the calculus of variations and later using optimal control theory. His pioneering efforts in this area paved the way for what is now a subfield of chemical physics: active intervention in chemical reactions, or “coherent control.” One of Stuart’s current areas of interest is the study of molecules adsorbed at surfaces. He is combining pioneering synchrotron X-ray scattering experiments with state of the art computer simulations to explore the nature of the phase
transitions in Langmuir monolayers of adsorbed alkanes and fluoroalkanes. His work is bringing deeper microscopic understanding to a field that 10 years ago allowed only speculation about the origins of thermodynamic singularities induced by changes in temperature and molecular coverage. Stuart is now extending this work to much larger molecules, with the goal of understanding the equilibrium structure and dynamics of polymers attached at interfaces. Stuart has been a major contributor to building and maintaining the strength of physical chemistry at Chicago and in the country. He has acted as advisor and mentor to countless colleagues, both senior and junior, around the world. This special issue is a token of thanks from his students, colleagues, and friends to Stuart for his seminal role in shaping our perception of the universe of chemistry. Joshua Jortner Ahmed H. Zewail Graham R. Fleming JP953452K
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Scientific Achievements Education
New York City Public School System Brooklyn College, B.S., 1952 Harvard University, A.M., 1954 Harvard University, Ph.D., 1955 Honorary Degrees Honorary Doctorate of Science Degree Brooklyn College, City University of New York, 1982 Notre Dame University, 1982 Professional Awards A. Cressy Momson Prize in Natural Sciences, New York Academy of Sciences, 1955 Alfred P. Sloan Fellow, 1958-1962 Guggenheim Fellow, 1960- 1961 (awarded 1959) Alumni Award of Honor, Brooklyn College, 1961 American Chemical Society Award in Pure Chemistry, 1962 Junior Chamber of Commerce (Chicago), Ten Outstanding Young Men Award, 1962 Marlow Medal of the Faraday Society, 1963 National Science Foundation Senior Postdoctoral Fellow and Visiting Professor, Universite Libre de Bruxelles, 1965- 1966 Medal of the Universite Libre de Bruxelles, 1966 Elected Fellow, American Academy of Arts and Sciences, 1967 Elected Fellow, National Academy of Sciences, 1968 Llewellyn John and Harriet Manchester Quantrell Award for Excellence in Undergraduate Teaching, 1970 National Institutes of Health Special Research Fellow and Visiting Professor, H. C. Orsted Institute, University of Copenhagen, 1970-1971 Leo Hendrik Baekeland Award, American Chemical Society, 1971 Elected Foreign Member of Royal Danish Academy of Science and Letters, 1976 Scientific Achievement Award Medal, CUNY, New York, 1978 Fairchild Scholar, California Institute of Technology, January 1, 1979-March 3 1, 1979 Peter Debye Award, American Chemical Society, 1985 Elected Fellow, American Philosophical Society, 1986 Joel Henry Hildebrand Award, American Chemical Society, 1987 Honorific Lectureships King Lecturer, Johns Hopkins University, 1963 Bourke Lecturer of the Faraday Society, 1964 Falk-Plaut Lecturer, Columbia University, 1964 Reilly Lecturer, Notre Dame University, 1964 Farkas Lecturer, Hebrew University, Jerusalem, 1965 Venable Lecturer, University of North Carolina, 1968 G. K. Rollefson Lecturer, University of California, Berkeley, 1968 Louderman Lecturer, Washington University, 1968 University Lecturer in Chemistry, University of Western Ontario, 1970 Seaver Lecturer, University of Southern California, 1972 Noyes Lecturer, University of Texas at Austin, 1975 Arthur D. Little Lecturer, Northeastern University, Boston, 1976 Foster Lecturer, SUNY Buffalo, Buffalo New York, 1976 Frank T. Gucker Lecturer, Indiana University, 1976 E. Roger Washburn Memorial Lecturer, University of Nebraska, 1977 Visiting Professor, University of California, Berkeley, Department of Chemistry, January 1, 1977-June 30, 1977 A. R. Gordon Distinguished Lecturer, University of Toronto, 1978 Liversidge Memorial Lecturer, University of Sydney, Sydney, Australia, August 1978 Bicentennial Lecturer, CUNY, New York, 1978 G. B. Kistiakowsky Lecturer, Harvard University, 1982 Baker Lecturer, Cornel1 University, 1985-86 Centenary Lecturer, Royal Society of Chemistry, 1986- 1987 University Lecturer, Boston College, 1987 Hutchinson Lecturer, University of Rochester, 1989 International Boards Member, Scientific Committee in Chemistry, Solvay Institutes, 1988 National Boards Member, Air Force Solid State Sciences Panel, 1966-1972 Member, Office of Aerospace Research Scientific Advisory Group, 1966- 1971 Member, National Science Foundation Advisory Committee for Research, 1973- 1974 Member, Advisory Committee for Chemistry, Oak Ridge National Laboratory (AEC), 1974- 1976 Member, Committee on Chemistry and Federal Policy (NRC), 1975-1976 Member, Solid State Sciences Committee (NRC), 1977- 1978
2418 J. Phys. Chem., Vol. 99, No. 9, 1995 National Boards (Continued) Member, Program Committee, National Center for Computation in Chemistry, 1978- 1980 Chairman, Chemistry Section, National Academy of Sciences, 1980- 1982 Member, National Science Board, 1980- 1986 Member, Board of Directors AURA, Association of Universities for Research in Astronomy, Inc., 1986-present Member, Argonne Board of Govemers, 1986-present Member, Board of Chemical Sciences and Technology, National Research Council, 1987- 1990 Other Advisory Committees Member, Board of Directors, Bulletin of the Atomic Scientists, 1965-1989 (Chairman of the Board of Directors, 1974-1979) Fellow, Center for Policy Study, University of Chicago, 1967-1977 Member, Advisory Board, Institute of Statistical Mechanics and Thermodynamics, University of Texas, 1967-present Member, Board of Governors, Tel Aviv University, Israel, 1967-present Member, Advisory Council, Department of Chemistry, Princeton University, 1970- 1974 Member, Advisory Board, Petroleum Research Fund of the American Chemical Society, 1974- 1976 Member, Advisory Board, Alexander Von-Humboldt-Stiftung, 1986-present Editorial Work Consulting Chemistry Editor, Harper & Row Publishers, 1961- 1974 Co-Editor, Advances in Chemical Physics, 1966-present Member, Editorial Committee, Annual Review of Physical chemistry, 1967- 1971 Member, Editorial Board The Journal of Physical Chemistry, 1969- 1980 Advisor to Editors of Encyclopaedia Britannica, 1971-present Advisory Editor, Wiley Interscience Publishers, 1973-present Member, Editorial Board, Chemical Physics Letters, 1974-present Advisory Editor, Physica, 1977-1986 Member, Editorial Board, Journal of Statistical Physics, 1979- 1981 Member, Editorial Board, Langrnuir, 1990-present Academic Positions Junior Fellow, Society of Fellows, Harvard University, June 1955-September 1957 Assistant Professor, University of Chicago, Department of Chemistry and Institute for the Study of Metals, October 1, 1957-September 30, 1959 Associate Professor, University of Chicago, October 1, 1959-September 30, 1960 Professor, University of Chicago, October 1, 1960-present Director, James Franck Institute (formerly Institute for the Study of Metals) 1961- 1967 Professor, University of Chicago, Committee on Mathematical Biology, July 1, 1968-June 30, 1969 Louis Block Professor in The James Franck Institute, The Department of Chemistry, Departments of Biophysics and Theoretical Biology, July 1, 1969-December 31, 1977 Chairman, Department of Chemistry, University of Chicago, July 1, 1971-December 31, 1976 Frank P. Hixon Distinguished Service Professor in the James Franck Institute and the Department of Chemistry, January 1, 1977-present Dean, Division of Physical Sciences, University of Chicago, July 1, 1981-present Current Editorial WorWBoards/etc. Co-Editor, Advances in Chemical Physics Consulting Editor, Wiley-Interscience, New York Advisor to Editors of Encyclopaedia Britannica Member, Editorial Board, Chemical Physics Letters Advisory Editor, Encyclopedia of Physical Science and Technology Member, Advisory Board, World Scientific Publishing Co. PTE. LTD.
. I Phys. . Chem. 1995, 99, 2419
Scientific Collaborators Ph.D. Students Robert A. Harris (1960), Jamshid Naghizadeh (1961), H. Ted Davis (1962), Roger Corneliussen (1962), George Thompson (1963) (deceased), Lynn Ikenbeny (1963), Joseph Katz (1963), Bright Lowry, Jr. (1963), Martin Vala (1964), Bruce Berne (1964), Robert Silbey (1964), Eugene Stevens (1965), Stephen Webber (1965), John Haebig (1965), Harold Schnyders (1965), H. Y. Sun (1965), Norman Hurt (1966), John Lekner (1966), Andrew Hazi (1967), David A. Young (1967), Leon Glass (1968), David Chock (1968), Aaron N. Bloch (1968), Hugh Wilson (1968), Bruce Clarke (1969), William Greer (1969), John Weeks (1969), William Gelbart (1970), John Richards (1970), Stuart A. Newman (1970), Marlo Martin (1970), Kenneth Spears (1971), Alan Abramson (1971), Ira Katz (1972), D. Keith Evans (1972), James Boiani (1972), Barry Siskind (1972), Oleh Weres (1972), Kosuke Shobatake (1973), Richard Scheps (1973), Salomon Risemberg (1973), Howard L. Lemberg (1973), Man Him Hui (1974), Charles Guttman (1974), Donald Florida (1974), Jean Wilcox Laing (1975), Barry McCoy (1975), C. G. Venkatesh (1975), Daniel Guidotti (1976), R. Bruce Weisman (1976), John Wenzel (1976), Jeff McVey (1977), T. C. Sivakumar (1977), Robert McGraw (1977), John Allen (1977), Bo Ching Lu (1977), Don Chernoff (1978), Steve Michielson (1979), Michael Morse (1980), Dan McDonald (1980), Fred Behlen (1980), Michael Bergren (1981), A. D. J. Haymet (1981), Jim Tusa (1982), Mark D’Evelyn (1982), Mark Vandersall(1982), Tim Rolfe (1982), Douglas Sluis (1982), Alan Belch (1983), Tom Stephenson (1983), Glen Nielson (1984), Pat Radloff (1984), Michael Lipkin (1984), Ron Rosman (1986), Zhen-Gang Wang (1987), Peter Weber (1987), Scott Barton (1987), Ben Jacobson (1988), Jonathan Harris (1988), Britt Thomas (1989), Samuel Tersigni (1990), Zhonghou Cai (1991), Mike Townsend (1991), Nancy Collazo (1991), Joseph T. Buontempo (1992), Seokmin Shin (1992), Thomas Etheridge (1993), Erik B. Flom (1993), Jun Gao (1993), Mark E. Schmidt (1995). Current: Anibel A. Acero, Soon-Min Jang, Meng Yang Li, Mark Kobrak, Hui Tang, Dmitriy Chekmarev, David Strong, Kyle Pierre-Bell.
Postdoctoral Research Associates Alan Allnatt (1959-61), Mitsuru Nagasawa (1959-61), Savo Lapanje (1958-60), Sang-I1 Choi (1961-63), Hiromi Yamakawa (1961-63), Leonard Kotin (1959-61), E. Guy Wilson (1961-63), Joshua Jortner (1961-64), David Beaglehole (1964-66), Peter Gray (1964-65), Neil Kestner (1963-65), Ian Hillier (1964-66), Kazuo Hiroike (1964-65), Jean Pierre Boon (1964-66), Jan Popielawski (1966-67, 1986-87) (deceased), Gregoire Nicolis (1966-68), John J. Kozak (1967-69), Philip Johnson (1967-69), Ian McLaughlin (1968-69), Sighart Fisher (1968-70), Graeme Morris (1969-70), Roland Hawkins (1971-72), Robert Gavin (1971-72), Benjamin Katz (1971-72), David Olander (1968-71), Mark G. Sceats (1974-77), Kenneth Kay (1970-71), K. S . J. Nordholm (1972-74), Ernest Dorko (1974-75), Eric J. Heller (1974-76), Joseph Kushick (1976-78), David Oxtoby (1974-76), Kenichi Tomioka (1976-77), William G. Madden (1976-79), John Dancz (1976-77), Mark Sulkes (1978-81), Nohiko Mikami (1978-79), Ronnie Kosloff (1980-82), V. Sethuraman (1980-83), Michael Morse (1981-83), Christoph Jouvet (1981-83), Charles Cerjan (1982-84), Michael Collins (1982-83), Jan Gryko (1982-83,1986-87), Duane Smith (1983-85), Walter Struve (1983), Udayan Mohanty (1983-85), Biman Bagchi, Andras Lorincz (1984-85), David Tannor (1984-86), Stephen Gray (1984-86), Marek Wojcik (1985-86), Joyce Guest (1985-87), Pierre Gaspard (1987-89), Katsuhiro Nakamura (1988-89), Yaakow Rosenfeld (1989-90), Bjarne Amstrup (1990-91), Roger Carlson (1988-91) (deceased), Frank Novak (1979-81, 1984-94), Binhua Lin (1990-94). Current: Meishan Zhao, Eric Hiller, Zhengqing Huang, Ning Lei, Andrew Marcus, Jeremy Schofield. JF953451S
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List of Publications 1. Effect of Folic Acid, Aminopterin and Vitamin K on Growth of Roots in Allium cepa. With Michael Levine. Proc. SOC. Exp. Biol. Med. 74, 310 (1950). 2. A Note on the Kinetics of Unitary Processes. J. Chem. Phys. 21, 2227 (1953). 3. A Further Examination of the Molecular Weight and Size
25. A Model for Ion Binding and Exchange in Polyelectrolyte Solutions and Gels. With Frank E. Harris. J. Phys. Chem. 61, 1360 (1957). 26. Some Further Comments on the Properties of Bolaform Electrolytes. J. Am. Chem. SOC.80, 3207 (1958). 27. Comments on the paper “Potentiometric Titration, As-
of Desoxypentose Nucleic Acid. With M. E. Reichmann, C. A. Thomas, and Paul Doty. J. Am. Chem. SOC. 76,
sociation Phenomena, and Interaction of Neighboring Groups in Polyelectrolytes.” With Frank E. Harris. J. Chem. Phys. 28, 988 (1958). Some Comments on the Theory of Denaturation. With Akiyoshi Wada and E. Peter Geiduschek. Discuss. Faraday SOC.25, 130 (1958). The Stability of the Helical DNA Molecule in Solution. With Julian M. Sturtevant and E. Peter Geiduschek. Discuss. Faraday SOC. 25, 138 (1958). Comments on the Stability of DNA in Solution. With E. P. Geiduschek. Discuss. Faraday SOC.25, 215 (1958). On a Model of the Helix-Coil Transition in Macromolecules. II. With Akiyoshi Wada. J. Chem. Phys. 29,233
3047 (1954). 4. A Chain Model for Polyelectrolytes. I. With Frank E. Harris. J. Phys. Chem. 58, 725 (1954).
5. A Chain Model for Polyelectrolytes. 11. With Frank E. Harris. J. Phys. Chem. 58, 733 (1954). 6. The Random Chain Model for Polyelectrolytes. With Frank E. Harris. J. Polym. Sci. 15, 151 (1955). 7. Particle Scattering Factors in Polydisperse Systems. J. Polym. Sci. 16, 94 (1955). 8. The Denaturation of Desoxypentose Nucleic Acid. With Paul Doty. Biochim. Biophys. Acta 16, 446 (1955). 9. A Chain Model for Polyelectrolytes. 111. Equimolar Polyampholytes of Regularly Alternating Structure. With Frank E. Harris. J. Chem. Phys. 24, 326 (1956). 10. A Chain Model for Polyelectrolytes. IV.Skeletal Distribution Effects in Equimolar Polyampholytes. With Frank E. Harris. J. Chem. Phys. 24, 336 (1956). 11. On the Free Energy of Solutions. J. Chem. Phys. 24, 357 (1956). b 12. On the Cell Model for Solutions. Ann. N.Y. Acad. Sci. 65, 35 (1956). A Cressy Morrison h i z e Paper. 13. Cell Model for Solutions and the Additivity of Free Energies. J. Chem. Phys. 24, 1283 (1956). 14. Model for Ion-Exchange Resins. With Frank E. Harris. J. Chem. Phys. 24, 1258 (1956). 15. Polyelectrolyte Gels and Ion Exchange Reactions. With Frank E. Harris. 2. Phys. Chem., Neue Folge 8, 207 (1956). 16. On the Bjermm Relation and the Formation of Ion Pairs. J. Am. Chem. SOC. 78, 5247 (1956). 17. Electrostatic Contributions to Thermodynamic Functions of Systems Containing Polymeric Ions. With Frank E. Harris. J. Chem. Phys. 25, 955 (1956). 18. Infrared Spectra of the Alkali Halides. I. Lithium Halides. With William Klemperer. J. Chem. Phys. 26,618 (1957). 19. Spectra of the Alkali Halides. 11. The Infrared Spectra of the Sodium and Potassium Halides, RbCl and CsC1. With William Klemperer. J. Chem. Phys. 27,573 (1957). 20. The Infrared Spectrum of Cuprous Chloride Vapor. With William Klemperer and R. Stephen Berry. J. Am. Chem. SOC. 79, 1810 (1957). 2 1. Thermodynamic Properties of the Gaseous Alkali Halides. With William Klemperer. J. Chem. Phys. 27,643 (1957). 22. The Thermal Denaturation of Desoxyribose Nucleic Acid. With Paul Doty. J. Am. Chem. SOC.79, 3937 (1957). 23. Some Particle Scattering Factors for Rods with Inhomogeneous Mass Distributions. Application to the Molecular Configuration of Myosin. With Alfred Holtzer. J. Am. Chem. SOC. 79, 4847 (1957). 24. The Properties of Sonic Fragments of Desoxyribose Nucleic Acid. With Paul Doty and Barbara Bunce McGill. Proc. Natl. Acad. Sci. U.S.A. 44, 432 (1958).
28. 29.
30. 3 1.
(1958). 32. On the Theorem of Corresponding States and Its Application to Mixtures. J. Chem. Phys. 29, 141 (1958). 33. Dynamical Theory of Diffusion in Crystals. Phys. Rev. 112, 804 (1958). 34. On the Dynamical Theory of Diffusion in Crystals. 11.
Pressure Dependence of the Self-Diffusion Constant. With Norman H. Nachtrieb. J. Chem. Phys. 31, 139 (1959). 35. Effect of Pressure on Self-Diffusion in Lead. With Norman H. Nachtrieb and Henry A. Resing. J. Chem. Phys. 31, 135 (1959). 36. On a Relation between Coarse Graining and Diagonal Singularity. J. Chem. Phys. 30, 587 (1959). 37. The Helix-Coil Transition in Charged Macromolecules. With Bruno H. Zimm. Mol. Phys. 3, 391 (1960). 38. Statistical Mechanical Theory of Transport Processes. X I . Dense Rigid Sphere Fluids. With John G. Kirkwood, John Ross, and Robert W. Zwanzig. J. Chem. Phys. 31, 575 (1959). 39. Statistical Mechanical Theory of Transport Processes. XIII. Kinetic Theory of Dense Rigid Sphere Fluids. J. Chem. Phys. 31, 584 (1959). 40. On an Approximate Theory of Transport in Dense Media. With John G. Kirkwood. J. Chem. Phys. 31,901 (1959). 41. Polyelectrolytes. Rev. Mod. Phys. 31, 69 (1959). 42. The Statistical Mechanical Basis of the Enskog Theory of Transport in Dense Gases. With J. G. Kirkwood. Nuovo Cimento Suppl. 9, Ser. X, 112 (1958). 43. On the Dilatational Viscosity of Simple Dense Fluids. Phys. Fluids 2, 579 (1959). 44. On the Dynamical Theory of Diffusion in Crystals. 111. Some Model Calculations and Relation to Continuum Theory. With A. W. Lawson, Roger D. Comeliussen, and Norman H. Nachtrieb. J. Chem. Phys. 32, 447 (1960). 45. Dynamical Theory of Diffusion in Crystals. IV. Some Aspects of the Introduction of Irreversibility.With Harry L. Frisch. J. Chem. Phys. 32, 106 (1960). 46. Dynamical Theory of Diffusion in Crystals. With Oscar P. Manley. Phys. Rev. 117, 632 (1960).
J. Phys. Chem., Vol. 99, No. 9, 1995 2421 47. Kinetic Theory of Moderately Dense Rigid Sphere Fluids. III. The Formulation and Solution of the Transport Equation for Binary Mixtures. With Robert A. Harris. J. Chem. Phys. 32, 538 (1960). 48. Principle of Corresponding States for Transport Properties. With Eugene Helfand. J. Chem. Phys. 32, 1642 (1960). 49. Kinetic Theory of the Moderately Dense Rigid-Sphere Fluid. IV. Fluxes of Matter, Momentum, and Energy in a Mixture. With Robert A. Harris. J. Chem. Phys. 33, 1047 (1960). 50. Kinetic Theory of the Moderately Dense Rigid-Sphere Fluid. V. Relaxation in Momentum Space. With Robert A. Harris. J. Chem. Phys. 33, 1055 (1960). 51. On the Dynamical Theory of Diffusion in Crystals. V. Random-Walk Treatment of the Heat of Transport. With Alan R. Allnatt. J. Chem. Phys. 33, 573 (1960). 52. Some Further Remarks on the Coefficient of Self-Diffusion in Simple Dense Fluids. J. Chem. Phys. 33, 1376 (1960). 53. A Chain Model for Polyelectrolytes. V. A Study of the Effects of Local Charge Density. With Mitsuru Nagasawa. J. Am. Chem. SOC.82, 5070 (1960). 54. Some Aspects of the Statistical Theory of Transport. With Harry L. Frisch. Annu. Rev. Phys. Chem. 11,187 (1960). 55. Approximate Theory of Transport in Simple Dense Fluid Mixtures. With Alan R. Allnatt. J. Chem. Phys. 34,409 (1961). 56. Polyelectrolyte Solutions. With Mitsuru Nagasawa. Academic Press: New York (1961). 57. On the Kinetic Theory of Dense Fluids. VI. Singlet Distribution Function for Rigid Spheres with an Attractive Potential. With Alan R. Allnatt. J. Chem. Phys. 34, 2144 (1961). 58. On the Kinetic Theory of Dense Fluids. VII. The Doublet Distribution Function for Rigid Spheres with an Attractive Potential. With Alan R. Allnatt. J. Chem. Phys. 34, 2156 (1961). 59. A Chain Model for Polyelectrolytes. VI. Some Studies of Counterion Activity and Counterion Binding in Polyethyleneimine Salts. With Savo Lapanje, Jon Haebig, and H. Ted Davis. J. Am. Chem. SOC.83, 1590 (1961). 60. On the Ionization of Polystyrene Sulfonic Acid. With Savo Lapanje. J. Am. Chem. SOC. 83, 496 (1961). 61. On the Kinetic Theory of Dense Fluids. VIII. Some Comments on the Formal Computation of the NonEquilibrium Distribution Function of a Fluid. With John G. Kirkwood and Robert A. Harris. Physica 27, 717 (1961). 62. A Conjecture Concerning the Electrical Conductance of Metal-Molten Salt Mixtures. Discuss. Faraday SOC.32, 181 (1962). 63. An Acoustic Continuum Model of Molecular Friction in Simple Dense Fluids. Mol. Phys. 4, 305 (1961). 64. On the Kinetic Theory of Dense Fluids. IX.The Fluid of Rigid Spheres with a Square-Well Attraction. With H. T. Davis and J. V. Sengers. J. Chem. Phys. 35, 2210 (1961). 65. Kinetic Theory of Dense Fluids. X. Measurement and Interpretation of Self-Diffusion in Liquid Ar, Kr, Xe, and C h . With Jamshid Naghizadeh. J. Chem. Phys. 36, 2710 (1962). 66. Mobility of Ions in Liquid He4 and He3 as a Function of Pressure and Temperature. With L. Meyer, H. T. Davis, and R. J. Donnelly. Phys. Rev. 126, 1927 (1962). 67. Kinetic Theory of Ideal Ionic Melts. Trans. Faraday Soc. 58, 499 (1962).
68. Exciton-Exciton Interactions and Photoconductivity in Organic Crystals. With Sang-il Choi. Phys. Rev. Lett. 8, 410 (1962). 69. On the Kinetic Theory of Simple Dense Fluids. XI. Experimental and Theoretical Studies of Positive Ion Mobility in Liquid Ar, Kr and Xe. With H. T. Davis and Lothar Meyer. J. Chem. Phys. 37, 947 (1962). 70. Theory of Electronic and Ionic Mobility in Liquid He4 and Liquid He3. With H. T. Davis and Lothar Meyer. Phys. Rev. Lett. 9, 81 (1962). 71. Kinetic Theory of Dense Fluids. XII. Electronic and Ionic Motion in Liquid He4 and Liquid He3. With H. T. Davis and Lothar Meyer. J. Chem. Phys. 7, 1521 (1962). 72. Ions as Probes into Quantum Fluids. With Lothar Meyer and H. T. Davis. Proceedings of the Eighth International Conference on Low Temperature Physics, London (1962). Buttenvorths: London, p 53 (1963). 73. On the Kinetic Theory of Simple Dense Fluids. XIII. The Mobility of Negative Ions in Liquid Ar, Kr, Xe. With H. T. Davis and Lothar Meyer. J. Chem. Phys. 37,2470 (1962). 74. Exciton-Exciton Interactions and Photoconductivity in Crystalline Anthracene. With Sang-il Choi. J. Chem. Phys. 38, 366 (1963). 75. On the Thermodynamic Properties of Solutions of Polar Polymers: Theory. With Hiromi Yamakawa, Roger D. Corneliussen, and Leonard Kotin. J. Chem. Phys. 38, 1759 (1963). 76. On the Thermodynamic Properties of Solutions of Polar Polymers: A Comparison of Experiment and Theory. With Roger D. Corneliussen and Hiromi Yamakawa. J. Chem. Phys. 38, 1768 (1963). 77. The Heats of Sublimation of XeFz and XeF4 and a Conjecture on Bonding in the Solids. With Joshua Jortner and E. Guy Wilson. J. Am. Chem. SOC.85, 814 (1963). 78. A Far-Ultraviolet Spectroscopic Study of Xenon Difluoride. With Joshua Jortner and E. Guy Wilson. J. Am. Chem. SOC.85, 813 (1963). 79. A Far-Ultraviolet Spectroscopic Study of Xenon Tetrafluoride. With Joshua Jortner and E. G. Wilson. J.Am. Chem. SOC. 85, 815 (1963). 80. Speculation Concerning the Nature of Binding in Xenon Fluorine Compounds. With Joshua Jortner and E. Guy Wilson. J. Chem. Phys. 38, 2302 (1963). 8 1. A Chain Model for Polyelectrolytes. VUI. Further Studies of Counterion Activity in Solutions of Polyethyleneimine Hydrochloride. With Savo Lapanje and Peter F. Jones. J. Am. Chem. SOC.85, 883 (1963). 82. A Chain Model for Polyelectrolytes. IX. The Effects of Chain Length and Charge on the Friction Constant. With George Thomson and Mitsuru Nagasawa. J. Am. Chem. SOC.85, 2537 (1963). 83. A Quantitative Test of the Theory of Hypochromism. With Martin T. Vala. J. Chem. Phys. 39, 2349 (1963). 84. On the Kinetic Theory of Dense Fluids. XJY. Experimental and Theoretical Studies of Thermal Conductivity in Liquid Ar, Xe and C h . With Lynn D. Ikenberry. J. Chem. Phys. 39, 1561 (1963). 85. On the Excess Electron and Hole Band Structures and Carrier Mobility in Naphthalene, Anthracene, and Several Polyphenyls. With Joseph L. Katz, Sang-il Choi, and Joshua Jortner. J. Chem. Phys. 39, 1683 (1963).
2422 J. Phys. Chem., Vol. 99, No. 9, 1995 86. Theoretical and Experimental Studies of the Electronic Structure of the Xenon Fluorides. With Joshua Jortner and E. G. Wilson. In Noble Gas Compounds, Herbert H. Hyman, Ed.; University of Chicago Press: Chicago, p 358 (1963). 87. Triplet Exciton Bands in Aromatic Crystals. With Joshua Jortner, Sang-il Choi, and Joseph L. Katz. J. Chem. Phys. 39, 1897 (1963). 88. Triplet Energy Transfer and Triplet-Triplet Interaction in Aromatic Crystals. With Joshua Jortner, Sang-il Choi, and Joseph L. Katz. Phys. Rev. Lett. 11, 323 (1963). 89. On the Kinetic Theory of Dense Fluids. XV. Some Comments on the Rice-Allnatt Theory. With Bruce Berne. J. Chem. Phys. 40, 1336 (1964). 90. A Brief Review of Some Aspects of the Molecular Theory of Liquids. In Liquids: Structure, Properties, Solid Interactions. Proceedings of the Symposium on Liquids: Structure, Properties, Solid Interactions, General Motors Research Laboratories, Warren, Michigan, 1963. Thomas J. Hughel, Ed.; Elsevier Publishing Company: Amsterdam (1965), pp 51-141. 91. Theories and Models of Electron Binding in Solution. With Joshua Jortner and E. Guy Wilson. In Proceedings of the Weyl Colloquium, Lille, France, June 1963, pp 22276. 92. Perturbation Calculation of Mixed Pair Correlation Functions. With B. A. Lowry and H. T. Davis. Phys. Fluids 7, 402 (1964). 93. On the Kinetic Theory of Dense Fluids. XVI. The Ideal Ionic Melt. With B. Berne. J. Chem. Phys. 40, 1347 (1964). 94. Forbidden Electronic Transitions in XeFz and XeF4. With E. S. Pysh and Joshua Jortner. J. Chem. Phys. 40,2018 (1964). 95. Comments on the Theory of Ionic and Electronic Mobility in Liquids. With Joshua Jortner. In Progress in Dielectrics, VI; J. B. Birks, Ed.; Temple Press Books, Ltd.: London (1965). 96. On the Calculation of the Molecular Friction Constant. With Peter Gray. J. Chem. Phys. 40, 3671 (1964). 97. Perturbation Theory of the Heats of Mixing of Fused Salts. With H. Ted Davis. J. Chem. Phys. 41, 14 (1964). 98. Energy Transfer Phenomena in Liquid Helium. With Joshua Jortner, Lothar Meyer, and E. G. Wilson. Phys. Rev. Lett. 12, 415 (1964). 99. On the Kinetic Theory of Dense Fluids. XVII. The Shear Viscosity. With Bright A. Lowry and Peter Gray. J. Chem. Phys. 40, 3673 (1964). 100. Guest-Host Interactions: An Examination of the Solvent Induced Spectral Shift in a Model System. With HueiYing Sun and Joshua Jortner. J. Chem. Phys. 41, 3779 (1964). 101. Ion-Pair Exciton States and the Optical Spectrum of Crystalline Neon. With Stephen Webber and Joshua Jortner. J. Chem. Phys. 41, 291 1 (1964). 102. On the Kinetic Theory of Dense Fluids. XVIII. The Bulk Viscosity. With Peter Gray. J. Chem. Phys. 41, 3689 (1964). 103. Charge Transfer Exciton States in Aromatic Molecular Crystals. With Sang-il Choi, Joshua Jortner, and Robert Silbey. J. Chem. Phys. 41, 3294 (1964). 104. On the Singlet Exciton-States of Crystalline Anthracene. With Robert Silbey and Joshua Jortner. J. Chem. Phys. 42, 1515 (1965).
105. On the Excited Electronic States of Isotactic Polystyrene and Polyvinylnaphthalene. With Martin T. Vala, Jr., Robert Silbey, and Joshua Jortner. J. Chem. Phys. 41, 2846 (1965). 106. Comments on the Use of Carbon SCF Atomic Orbitals in Aromatic Molecules. With Robert Silbey, Neil R. Kestner, and Joshua Jortner. J. Chem. Phys. 42, 444 (1965). 107. Localized Excitations in Condensed Neon, Argon, Krypton, and Xenon. With Joshua Jortner, Lothar Meyer, and E. G. Wilson. Paper presented at the Ninth Low Temperature Conference, September 1964, Ohio State University, Columbus, Ohio. 108. Exchange Effects on the Electron and Hole Mobility in Crystalline Anthracene and Naphthalene. With Robert Silbey, Joshua Jortner, and Martin T. Vala, Jr. J. Chem. Phys. 42, 733 (1965). Erratum: Exchange Effects on the Electron and Hole Mobility in Crystalline Anthracene and Naphthalene. J. Chem. Phys. 42, 733 (1965). J. Chem. Phys. 43, 2925 (1965). 109. Triplet Excitons in Crystals of Aromatic Molecules. With Joshua Jortner, Joseph L. Katz, and Sang-il Choi. J. Chem. Phys. 42, 309 (1965). 110. The Chemistry of Xenon. With John G. Malm, Henry Selig, and Joshua Jortner. Chem. Rev. 65, 199 (1965). 111. Reply to M. Blander Re: A Perturbation Theory of the Heats of Mixing of Fused Salts. With H. Ted Davis. J. Chem. Phys. 42, 810 (1965). 112. Deep Impurity States in Molecular Crystals: The Optical Excitation of a Substitutional Argon Atom in Crystalline Neon. With Stephen Webber and Joshua Jortner. J. Chem. Phys. 42, 1907 (1965). 113. Photoconductivity in Crystals of Organic Molecules. With Joshua Jortner. In Modern Quantum Chemistry, Istanbul Lectures, Part III: Action of Light and Organic Crystals. Oktay Sinanoglu, Ed.; Academic Press, Inc.: New York (1965), pp 235-48. 114. Search for a Charge Transfer State in Crystalline Anthracene. With R. S. Berry, Joshua Jortner, John C. Mackie, and Eugene S. Pysh. J. Chem. Phys. 42, 1535 (1965). 115. The Electron-Helium Atom Pseudopotential. With Joshua Jortner, Neil R. Kestner, and Morrel H. Cohen. In Modern Quantum Chemistry, Istanbul Lectures, Part 11: Interactions. Oktay Sinanoglu, Ed.; Academic Press, Inc.: New York (1965), pp 129-32. 116. Experimental Study of Luminescence and Excitation Trapping in Vinyl Polymers, Paracyclophanes, and Related Compounds. With Martin T. Vala, Jr. and Jon Haebig. J. Chem. Phys. 43, 886 (1965). 117. Theoretical Studies of Transannular Interactions. I. Benzene Excimer Fluorescence and the Singlet States of the Paracyclophanes. With Ian H. Hillier, Martin T. Vala, Jr., and Joshua Jortner. J. Chem. Phys. 44, 23 (1966). 118. On the Electronic States of Crystalline Naphthalene. With Robert Silbey, Joshua Jortner, and Martin T. Vala, Jr. J. Chem. Phys. 42, 2948 (1965). 119. On the Kinetic Theory of Dense Fluids. XIX. Comments on and a Rederivation of the Kinetic Equations. With Kazuo Hiroike and Peter Gray. J. Chem. Phys. 42,3134 (1965).
J. Phys. Chem., Vol. 99, No. 9, 1995 2423 120. Chemical Predictions by M. 0. Theory: The Rare Gas Halides. With Joshua Jortner. In Modem Quantum Chemistry, Istanbul Lectures, Part I: Orbitals. Oktay Sinanoglu, Ed.; Academic Press, Inc.: New York (1965), pp 15-47. 121. Excitons and Energy Transfer in Molecular Crystals. With Joshua Jortner and Robert Silbey. In Modem Quantum Chemistry, Istanbul Lectures, Part 111: Action of Light and Organic Crystals. Oktay Sinanoglu, Ed.; Academic Press, Inc.: New York (1965), pp 139-59. 122. Electrons in Liquids. With Joshua Jortner and N. R. Kestner. In Modem Quantum Chemistry, Istanbul Lectures, Part 11: Interactions. Oktay Sinanoglu, Ed.; Academic Press, Inc.: New York (1965), pp 133-62. 123. On the Equation of State of the Rigid Sphere Fluid. With John Lekner. J. Chem. Phys. 42, 3559 (1965). 124. Low Energy Elastic Scattering of Electrons and Positrons from Helium Atoms. With Neil R. Kestner, Joshua Jortner, and Morrel H. Cohen. Phys. Rev. 140, A56 (1965). 125. A Conjecture on Conformations Leading to Energy Trapping in Helical Polymers. With Ian H. Hillier. Proc. Natl. Acad. Sci. U.S.A. 53, 973 (1965). 126. Possible Uses of High Pressure Techniques for the Study of the Electronic States of Molecular Crystals. With Joshua Jortner. In Physics of Solids at High Pressures. C. T. Tomizuka and R. M. Emrick, Eds.; Academic Press, Inc.: New York (1965), pp 63-164. 127. Comment on the Rice-Allnatt Kinetic Equations. With Norman Hurt. J. Chem. Phys. 42, 4061 (1965). 128. Conjecture on the Rate of Vibrational Relaxation of a Diatomic Molecule in a Monatomic Lattice. With H.Y. Sun. J. Chem. Phys. 42, 3826 (1965). 129. On the Quantum Mechanical Fokker-Planck Equation. With H. Ted Davis and Kazuo Hiroike. J. Chem. Phys. 43, 2633 (1965). 130. Statistical Mechanics of Simple Liquids. With Peter Gray. John Wiley and Sons, Inc.: New York (1965). 131. Theoretical Studies of Solvated Electrons. In The Solvated Electron. Robert F. Gould, Ed.; Advances in Chemistry Series 50; American Chemical Society: Washington, DC (1965), pp 7-27. 132. Localized Excitations in Condensed Ne, Ar, Kr, and Xe. With Joshua Jortner, Lothar Meyer, and E. G. Wilson. J. Chem. Phys. 42, 4250 (1965). 133. Excited Electronic States of Crystalline Benzene. With Robert Silbey and Joshua Jortner. J. Chem. Phys. 43, 3336 (1965). 134. Antiresonances in Doped Molecular Solids--Experimental Evidence for Configuration Mixing of Impurity States and Conduction-Band States. With E. S. Pysh and Joshua Jortner. Phys. Rev. Lett. 15, 289 (1965). 135. Study of the Properties of an Excess Electron in Liquid Helium. I. The Nature of the Electron-Helium Interactions. With Joshua Jortner, Neil R. Kestner, and Morrel H. Cohen. J. Chem. Phys. 43, 2614 (1965). 136. Study of the Properties of an Excess Electron in Liquid Helium. 11. A Refined Description of Configuration Changes in the Liquid. With Kazuo Hiroike, Neil R. Kestner, and Joshua Jortner. J. Chem. Phys. 43, 2625 (1965). 137. Electron Mobilities in Liquid Argon. With Harold Schnyders and Lothar Meyer. Phys. Rev. Lett. 15, 187 (1965). 138. The Reflection Spectra of Liquids Hg, In and Bi from 2-20 eV. With E. G. Wilson. Phys. Rev. 145,55 (1966).
139. The Reflection Spectrum of Liquid Hg from 2-20 eV. With E. G. Wilson. Optical Properties and Electronic Structure of Metals and Alloys, Northem-Holland Publishing Company: Amsterdam (1966), pp 27 1. 140. Molecular Rydberg Transitions in Rare Gas MatricesEvidence for Interaction between Impurity States and Crystal States. With E. S. Pysh and Joshua Jortner. J. Chem. Phys. 43, 2997 (1965). 141. Conjecture on Resonant Transfer of Vibrational Energy and Radiationless Transitions in the Solid Phase: The Lifetime of Triplet Anthracene. With H.-Y. Sun and Joshua Jortner. J. Chem. Phys. 44,2539 (1966). 142. On the Kinetic Theory of Dense Fluids. With Norman Hurt. J. Chem. Phys. 44, 2155 (1966). 143. Electron Drift Velocities in Liquefied Argon and Krypton at Low Electric Field Strengths. With Harold Schnyders and Lothar Meyer. Phys. Rev. 150, 127 (1966). 144. Comments on the Experimental and Theoretical Study of Transport Phenomena in Simple Liquids. With Jean Pierre Boon and H. Ted Davis. In Simple Dense Fluids: Data and Theory. H. L. Frisch and Z. W. Salsburg, Eds.; Academic Press, Inc.: New York (1968), pp 25 1-402. 145. Cooperative Exciton States in Molecular Crystals. With Joshua Jortner. J. Chem. Phys. 44, 3364 (1966). 146. Do Exciton States Exist in the Liquid Phase? With Joshua Jortner. J. Chem. Phys. 44,4470 (1966). 147. On the Calculation of Autocorrelation Functions of Dynamical Variables. With Bruce Beme and Jean-Pierre Boon. J. Chem. Phys. 45, 1086 (1966). 148. A Pseudopotential Theory of Atomic and Molecular Rydberg States. With Andrew U. Hazi. J. Chem. Phys. 45, 3004 (1966). 149. On the Intensity Distribution of Excimer Emission. With Leon Glass and Ian H. Hillier. J. Chem. Phys. 45, 3886 ( 1966). 150. Theoretical Studies of Transannular Interactions. 11. The Triplet States of the Paracyclophanes. With Ian H. Hillier and Leon Glass. J. Chem. Phys. 45, 3015 (1966). 151. Theoretical Studies of Transannular Interactions. 111. The Absorption and Emission Spectra of a Multi-Layered Paracyclophane. With Ian H. Hillier and Leon Glass. J. Am. Chem. SOC.88, 5063 (1966). 152. Liquid State. In Encyclopaedia Britannica (1961), pp 8993. 153. Theoretical Studies of Transannular Interactions. IV. The Electronic States of the Paracyclophane Anion. With Ian H. Hillier. J. Chem. Phys. 45, 4639 (1966). 154. Comments on the Influence of Intermediate Excitons and Exchange Forces on the Interaction in Molecular Crystals: The Crystal Structure of Chlorine. With Ian H. Hillier. J. Chem. Phys. 46, 3881 (1967). 155. On the Equation of State of the Rigid-Disk Fluid. With David A. Young. J. Chem. Phys. 46, 539 (1967). 156. Other Aspects of the Equilibrium Properties of Liquids. Supplement in Statistical Theory of Liquids, by I. Z . Fisher. With Peter Gray. University of Chicago Press: Chicago, IL (1964), pp 235-330. 157. Drift Velocity and Energy of Electrons in Liquid Argon. With Bret Halpem, John Lekner, and Robert Gomer. Phys. Rev. 156, 351 (1967). 158. On the Interpretation of the Factor Group Splitting in Naphthalene Crystal. With R. Silbey, J. Jortner, and M. Vala. Mol. Cryst. 2, 385 (1967).
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159. Functional Integral Representation of Nonequilibrium Statistical Mechanics. With Jan Popielawski and Norman Hurt. J. Chem. Phys. 46, 3707 (1967). Erratum: Functional Integral Representation of Nonequilibrium Statistical Mechanics. J. Chem. Phys. 46, 3707 (1967). J. Chem. Phys. 48, 2834 (1968). 160. Some Comments on the Properties of Triplet Excitons in Molecular Crystals. In The Triplet State, Proceedings of an International Symposium held at the Dept. of Physics, American University of Beirut, Cambridge University Press: Cambridge, England (1967), pp 265309. 161. Comments on the Theory of the Exciton States of Molecular Crystals. With Joshua Jortner. In Physics and Chemistry of the Organic Solid State, Vol. 111, David Fox, Mortimer Labes, and Arnold Weissberger, Eds.; Interscience Publishers: New York (1967), pp 199497. 162. A Comment on Self-Diffusion in Liquid Metals. With Norman H. Nachtrieb. Paper presented at the Symposium on the Properties of Liquid Metals, Brookhaven National Laboratory, September 1966, Adv. Phys. 16, 351 (1967). 163. On the Equation of State of a Monoatomic Fluid with 6-12 Potential. With David A. Young. Discuss. Faraday SOC.43, 16 (1967). 164. On the Theory of Excitons in Liquids. 11. A Classical Model of Polarization Waves in a Simple Liquid. With Gregoire Nicolis. J. Chem. Phys. 46, 4445 (1967). 165. Some Comments on the Usefulness of the Concept of Coherence Time in the Statistical Theory of Liquids. In Statistical Mechanics-Foundations and Application, Proceedings of the I. U. P. A. P. Meeting, Copenhagen, Thor A. Bak, Ed.; W. A. Benjamin, Inc.: New York and Amsterdam (1966), pp 475-510. 166. Intermediate Excitons in Molecular Crystals: A Study of the Excited States of Crystalline Iodine. With Ian H. Hillier. J. Chem. Phys. 47, 498 (1967). 167. On the Theory of Excitons in Liquids 111. Nonresonant Broadening of Impurity Spectra in Simple Liquids. With Jan Popielawski. J. Chem. Phys. 47, 2292 (1967). 168. Study of the Rydberg States of H2. With Andrew U. Hazi. J. Chem. Phys. 47, 1125 (1967). 169. Memory Effects and the Autocorrelation Function of a Dynamical Variable. With Jean-Pierre Boon. J. Chem. Phys. 47, 2480 (1967). 170. Reformulation of the Representation of Transport Coefficients Using the Autocorrelation-Function Formalism and the Linear-Trajectory Approximation.With Bruce J. Berne and Jean-Pierre Boon. J. Chem. Phys. 47, 2283 (1967). Erratum: Reformulation of the Representation of Transport Coefficients Using the Autocorrelation Function Formalism and Linear-Trajectory Approximation. J. Chem. Phys. 47, 2283 (1967), J. Chem. Phys. 48, 2833 (1968). 171. Some Properties of the Liquid State. In Journeys in Science, Small Steps-Great Strides, The Twelfth A. F. 0. S. R. Science Seminar, The University of New Mexico, David L. Arm, Ed.; The University of New Mexico Press (1967), pp 242-303. 172. Comments on the Equation of State of the Square-Well Fluid. With David A. Young. J. Chem. Phys. 47, 4228 (1967).
173. Theory of Excitons in Liquids. IV.A Simplified Treatment of the Shift and Damping of Polarization Waves. With Gregoire Nicolis and Joshua Jortner. J. Chem. Phys. 48, 2482 (1968). 174. Studies of the Electronic States of Simple Liquids. Acc. Chem. Res. 1, 81 (1968). 175. New Approximation for the Calculation of Neutron Scattering from a Simple Liquid. With Leon Glass. Phys. Rev. 165, 186 (1968). 176. Elementary Description of the Equation of State of a Simple Fluid. With John J. Kozak. J. Chem. Phys. 48, 1226 (1968). 177. Use of Model Potentials in the Study of Molecular Rydberg States. With Andrew U. Hazi. J. Chem. Phys. 48, 495 (1968). 178. Optical Model Calculation of the Electronic States of Mixed Disordered Systems. With Gregoire Nicolis and Joshua Jortner. J. Chem. Phys. 48, 3544 (1968). 179. Theory of Radiationless Transitions in an Isolated Molecule. With David P. Chock and Joshua Jortner. J. Chem. Phys. 49, 610 (1968). 180. Re-examination of the Theoretical Interpretations of the Spectra of Crystalline Benzene and Naphthalene. With William L. Greer, Joshua Jortner, and Robert Silbey. J. Chem. Phys. 48, 5667 (1968). 181. On the Use of Pseudopotentials in the Quantum Theory of Atoms and Molecules. With John D. Weeks and Andrew Hazi. Advances in Chemical Physics; WileyInterscience: New York, NY (1969), Vol. XVI, p 283. 182. Intramolecular Formation of p-Methylbenzyl Radical from p-Xylene. With Philip M. Johnson. Chem. Phys. Lett. 1, 709 (1968). 183. Conjecture Concerning an Asymptotic Modification of the Yvon-Born-Green Equation for Fluids of Rigid Spheres and Disks. With David A. Young. J. Chem. Phys. 47, 5061 (1967). 184. Secular Behavior and Frieman's Multiple-Time-Scale Theory of Irreversible Processes. With Hugh Wilson. J. Chem. Phys. 49, 1697 (1968). 185. On the Use of Pseudopotentials in Atomic Structure Calculations. With John D. Weeks. J. Chem. Phys. 49, 2741 (1968). 186. Cooperative Excitons in a Crystal with Two Molecules per Unit Cell. With David P. Chock. J. Chem. Phys. 49, 4345 (1968). 187. A Theoretical Study of the Low Energy Photoionization of Large Molecules: Benzene. With Philip M. Johnson. J. Chem. Phys. 49, 2734 (1968). 188. Some Comments on a Formal Theory of Photochemical Dissociation Reactions. With Ian McLaughlin and Joshua Jortner. J. Chem. Phys. 49, 2756 (1968). 189. A Unified Approximation for the Velocity Autocorrelation Function and the Structure Function of a Simple Liquid. With Leon Glass. Phys. Rev. 176, 239 (1968). 190. Properties of Simple Liquids. The Science Teacher 35, No. 5, p 17 (May 1968). 191. A Study of Exciton Dynamics in a Simple Liquid. With Sighart Fischer. Phys. Rev. 176, 409 (1968). 192. Radiationless Transitions in Photochemistry. With Joshua Jortner and Robin Hochstrasser. Advances in Photochemistry, Pitts, Hammond, and Noyes, Eds.; John Wiley & Sons, Inc.: New York (1969), Vol. 7, pp 149309.
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