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Oct 5, 2006 - Publications of Charles B. Harris. J. Phys. Chem. B , 2006, 110 (40), pp 19751–19757. DOI: 10.1021/jp0680645. Publication Date (Web): ...
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J. Phys. Chem. B 2006, 110, 19751-19757

19751

Publications of Charles B. Harris 1. Mononuclear and polynuclear chemistry of rhenium (III): its pronounced homophilicity. F. A. Cotton, N. F. Curtis, C. B. Harris, B. F. G. Johnson, S. J. Lippard, J. T. Mague, W. R. Robinson, J. S. Wood. Science 145, 1305 (1964). 2. The crystal and molecular structure of dipotassium octachlorodirhenate(III) dihydrate, K2[Re2C18]. 2H2O. F. A. Cotton and C. B. Harris. Inorg. Chem. 4, 330 (1965). 3. Correlation of nuclear quadrupole coupling constants with molecular electronic structure using molecular orbital theory. F. A. Cotton and C. B. Harris Proc. Natl. Acad. Sci. 56, 12 (1966). 4. Molecular orbital calculations for complexes of heavier transition elements. I. Study of parameter variations in the case of tetrachloroplatinate(II). F. A. Cotton and C. B. Harris Inorg. Chem. 6, 369 (1967). 5. Molecular orbital calculations for complexes of heavier transition elements.II. Hexachlorocomplexes of tetravalent rhenium, osmium, iridium and platinum. F. A. Cotton and C. B. Harris Inorg. Chem. 6, 376 (1967). 6. Molecular orbital calculations for complexes of heavier transition elements. III. The metal-metal bonding and electronic structure of Re2Cl82-. F. A. Cotton and C. B. Harris Inorg. Chem. 6, 924 (1967). 7. Extended Huckel calculations of the molecular orbitals in bis (β-ketoenolate) complexes of copper(II) and nickel(II). F. A. Cotton, C. B. Harris and J. J. Wise. Inorg. Chem. 6, 909 (1967). 8. The structure of tetraphenylarsonium bis(N-cyanodithiocarbinato) nickelate(II). F. A. Cotton and C. B. Harris Inorg. Chem. 7, 2140 (1968). 9. Transition metal nuclear quadrupole resonance. I. Cobalt59 nuclear quadrupole resonance (NQR) in Ca(l,2B9C2H11)2CoIII and the bonding in ferrocene. C. B. Harris Inorg. Chem. 7, 1517 (1968). 10. Transition metal nuclear quadrupole resonance (NQR). II. Interpretation of the rhenium nuclear quadrupole resonance spectra in dirhenium decacarbonyl. C. B. Harris Inorg. Chem. 7, 1691 (1968). 11. Evaluation of the 57Fe nuclear quadrupole moment. C. B. Harris J. Chem. Phys. 49, 1648 (1968). 12. The pure nuclear quadrupole resonance spectrum of cobalt59 in adducts of cobalt tetracarbonyl, MX3Co(CO)4. T. L. Brown, P. A. Edwards, C. B. Harris and J. L. Kirsch Inorg. Chem. 8, 763 (1969). 13. Transition metal nuclear quadrupole resonance. IV. Manganese-55 nuclear quadrupole resonance in π-pyrrolynylmanganese tricarbonyl and π-cyclopentadienylmanganese tricarbonyl and π-pyrrolenyl-metal bonds. M. D. Fayer and C. B. Harris Inorg. Chem. 8, 2792 (1969). 14. Phosphorescence-microwave double-resonance (PDMR) spectroscopy. D. S. Tinti and M. A. El-Sayed, A. H. Maki, and C. B. Harris Chem. Phys. Lett. 3, 343 (1969). 15. Optical detection of phosphorescent triplet state ENDOR in zero field. C. B. Harris, D. S. Tinti, M. A. El-Sayed and A. H. Maki Chem. Phys. Lett. 4, 409 (1969).

16. The interpretation of optically detected ENDOR in zero field and their relationship to 14N nuclear quadrupole interactions in 3(π,π*) states of quinoline and quinoxaline. M. J. Buckley, C. B. Harris and A. H. Maki Chem. Phys. Lett. 4, 59l (1970). 17. Optically detected 35Cl and 37Cl hyperfine and nuclear quadrupole interactions in excited triplet states in zero field. M. J. Buckley and C. B. Harris Chem. Phys. Lett. 5, 205 (1970). 18. Optically detected nuclear quadrupole resonance and transferred hyperfine couling via guest-host interactions in molecular crystals. M. D. Fayer, C. B. Harris and D. A. Yuen J. Chem. Phys. 53, 4719 (1970). 19. Optical phase precession in phosphorescence. C. B. Harris Fifth Molecular Crystal Symposium, June 1970. 20. BOOK REVIEW on Methods of molecular quantum mechanics by R. McWeeny and B. T. Sutcliffe (1969). C. B. Harris Science 171, 795 (197l). 21. Microwave induced time-dependent effects in triplet phosphorescence. C. B. Harris J. Chem. Phys. 54, 972 (197l). 22. The relationship between microwave spectroscopy, coherent triplet excitons, and density of states functions in molecular crystals. A. H. Francis and C. B. Harris Chem. Phys. Lett. 9, 181 (1971). 23. The observation of coherent triplet excitons and density of states functions in molecular crystals. A. H. Francis and C. B. Harris Chem. Phys. Lett. 9, 188 (1971). 24. Coherent triplet exciton trapping in molecular crystals. A. H. Francis and C. B. Harris J. Chem. Phys. 55, 3595 (1971). 25. Quadrature phase relationships in phosphorescence microwave double resonance spectroscopy. C. B. Harris and R. J. Hoover Chem. Phys. Lett. 12, 75 (1971). 26. Optically detected adiabatic inversion in phosphorescent triplet states and the measurement of intramolecular energy transfer processes. C. B. Harris and R. J. Hoover J. Chem. Phys. 56, 2199 (1972). 27. Lowest triplet state of substituted benzenes. I. The optically detected magnetic resonance of para-dichlorobenzene. M. J. Buckley and C. B. Harris J. Chem. Phys. 56, 137 (1972). 28. Lowest triplet state of substituted benzenes. II. Phosphorescence microwave double resonance studies on the 3ππ* state of p-dichlorobenzene. M. J. Buckley, C. B. Harris and R. M. Panos J. Am. Chem. Soc. 94, 3692 (1972). 29. Properties of the phosphorescent state of l,2,4,5-tetrabromobenzene as determined by optically detected magnetic resonance. A. H. Francis, C. B. Harris and A. M. Nishimura Chem. Phys. Lett. 14, 425 (1972). 30. On the lowest triplet state of substituted benzenes. III. Optically detected magnetic resonance studies on the 3ππ* state of l,2,4,5-tetrabromobenzene and l,2,4,5tetrachlorobenzene. A. H. Francis and C. B. Harris J. Chem. Phys. 57, 1050 (1972). 31. Magnetic resonance absorption in coherent exciton states of molecular crystals. C. B. Harris Proceedings of the XVIIth Congress Ampere, Turku, Finland, August 1972.

10.1021/jp0680645 © 2006 Charles B. Harris Published on Web 10/05/2006

19752 J. Phys. Chem. B, Vol. 110, No. 40, 2006 32. Coherent migration of triplet excitons in molecular crystals. C. B. Harris Third International Symposium/Chemistry of the Organic Solid State, University of Strathclyde, Glasgow, Scotland, Sept. 1972. 33. Optically detected electron spin-echoes and free precession in molecular excited states. W. G. Breiland, C. B. Harris and A. Pines Phys. ReV. Lett. 30, 158 (1973). 34. Breakdown of the Born-Oppenheimer approximation in radiative transitions. W. G. Breiland and C. B. Harris Chem. Phys. Lett. 18, 309 (1973). 35. Coherent exciton migration: an experimental and theoretical view. C. B. Harris Sixth Molecular Crystal Symposium, Germany, May 1973. 36. Optically detected electron spin locking and rotary echo trains in molecular excited states. C. B. Harris, R. L. Schlupp and H. Schuch Phys. ReV. Lett. 30, 1019 (1973). 37. Determination of the absolute sign of the electron spin dipolar and nuclear quadrupolar interactions in molecular excited triplet states. D. S. Tinti, G. Kothandaraman and C. B. Harris J. Chem. Phys. 59, 190 (1973). 38. Phosphorescence microwave double resonance in exciton states of molecular crystals and coherent states of triplet spin ensembles. C. B. Harris Pure Appl. Chem. 37, 73 (1974). 39. Coherent energy migration in solids. I. Band-trap equilibria at Boltzmann and non-Boltzmann temperatures. M. D. Fayer and C. B. Harris Phys. ReV. B 9, 748 (1974). 40. Coherent energy migration in solids. II. Spin-resonance absorption in coherent wave packet states and the effects of phonon-exciton scattering. C. B. Harris and M. D. Fayer Phys. ReV. B 10, 1784 (1974). 41. Use of an “ordered” electron spin state as a probe in molecular spectroscopy: optically detected adiabatic demagnetization in excited triplet states in zero field. H. C. Brenner, J. C. Brock and C. B. Harris J. Chem. Phys. 60, 4448 (1974). 42. The decay of localized states into delocalized band states. Theory and preliminary experimental investigations using optically detected electron spin coherence. M. D. Fayer and C. B. Harris Chem. Phys. Lett. 25, 149 (1974). 43. Coherence in electronically excited dimers. The observation of coherent dimers and its relationship to coherent excitons. A. H. Zewail and C. B. Harris Chem. Phys. Lett. 28, 8 (1974). 44. Phosphorescence microwave double resonance (PMDR) spectroscopy in ionic solids and its application to coherent Jahn-Teller states in F centers of CaO. C. B. Harris, M. Glasbeek and E. B. Hensley. Phys. ReV. Lett. 33, 537 (1974). 45. The radiationless decay of localized states into delocalized band states in solids. C. B. Harris Proceedings of the meeting on the Radiationless Processes, Schliersee, W. Germany, September 1974. 46. Coherence in Multilevel systems. I. The optical detection of coherence in excited states and its application to phosphorescent triplet states in zero field. W. G. Breiland, H. C. Brenner and C. B. Harris J. Chem. Phys. 62, 3458 (1975). 47. Coherence in electronically excited dimers. II. Theory and its relationship to exciton dynamics. A. H. Zewail and C. B. Harris Phys. ReV. B 11, 935 (1975).

48. Coherence in electronically excited dimers. III. The observation of coherence in dimers using optically detected electron spin resonance in zero field and its relationship to coherence in one-dimensional excitons. A. H. Zewail and C. B. Harris Phys. ReV. B 11, 952 (1975). 49. Direct measurement of the quantum yield for the creation of mobile excitons from localized states using optically detected electron spin coherence. H. C. Brenner, J. C. Brock, M. D. Fayer and C. B. Harris Chem. Phys. Lett. 33, 471 (1975). 50. Zero field optically detected magnetic resonance of multiple localized states in l,4-dibromonaphthalene crystals. A. M. Nishimura, A. H. Zewail and C. B. Harris J. Chem. Phys. 63, 1919 (1975). 51. The feasibility and advantages of off-resonance lasers in chemically reacting systems. C. B. Harris Lasers in Physical Chemistry and Biophysics, ed. by Jacques Joussot-Dubien, Elsevier Scientific Pub: Amsterdam, The Netherlands (1975). 52. Optically detected spin locking of zero field electronic triplet states and cross relaxation in the rotating frame. H. Schuch and C. B. Harris Z. Naturforsch. A: Phys. Sci. 30, 361 (1975). 53. Energy transfer in one-dimensional molecular crystals: direct and indirect energy exchange in the non-Boltzmann regime. M. T. Lewellyn, A. H. Zewail and C. B. Harris J. Chem. Phys. 63, 3687 (1975). 54. Optical detection of nuclear quadrupole interactions in excited triplet states (book chapter). C. B. Harris and M. J. Buckley AdVances in Nuclear Quadrupole Resonance, Vol. II, ed. by J. A. S. Smith, Pub. by Heyden & Son: London (1975). 55. Coherent spectroscopy in molecular excited states. C. B. Harris Proc. of the Arab Physical Society Conference on Chemical Physics, Damascus, Syria l, 58, (1975). 56. Coherence in multilevel systems. II. Description of a multilevel system as two levels in contact with a population reservoir. W. G. Breiland, M. D. Fayer and C. B. Harris Phys. ReV. A 13, 383 (1976). 57. Coherent energy migration in solids: Determination of the average coherence length in one dimensional systems using tunable dye lasers. R. M. Shelby, A. H. Zewail and C. B. Harris J. Chem. Phys. 64, 3192 (1976). 58. Coherence in ODMR: A new tool for spectroscopists. C. B. Harris Electron Spin Resonance Conference Proceedings, Nijmegen, The Netherlands, August 24-27, (1976). 59. The use of coherent spectroscopy in the study of intramolecular tunneling processes in excited triplet states. M. E. Tarrasch, C. R. Chen and C. B. Harris Chem. Phys. Lett. 48, 579 (1977). 60. Effects of energy exchange on vibrational dephasing times in Raman scattering. C. B. Harris, R. M. Shelby and P. A. Cornelius Phys. ReV. Lett. 38, 1415 (1977). 61. The origin of optical dephasing times and line shape functions for electronic transitions to localized and delocalized states in solids. C. B. Harris J. Chem. Phys. 67, 5607 (1977). 62. Interpretation of the optical dephasing time and line shape function in the S0 f T1 exciton transitions of 1,4 dibromonaphthalene. C. B. Harris Chem. Phys. Lett. 52, 1 (1977).

J. Phys. Chem. B, Vol. 110, No. 40, 2006 19753 63. Dynamical interpretation of electronic and vibrational dephasing processes in solids and liquids. C. B. Harris Discussion Meeting on Radiationless Processes, Breukelen, The Netherlands, August 8-l2 (1977). 64. The study of energy transfer processes in solids using optically detected electron spin coherence techniques. C. B. Harris Proceedings of the Third Specialized Colloque Ampere, Optical Techniques in Magnetic Resonance Spectroscopy, Trinity College, Dublin, Ireland, p 237 (1977). 65. Coherent spectroscopy in electronically excited states (book chapter). C. B. Harris and W. G. Breiland Laser and Coherence Spectroscopy, ed. by J. I. Steinfeld, pub. by Plenum: New York; pp 373-450 (1978). 66. Effects of energy transfer in one-dimensional substitutionally disordered systems. I. The effects of coherence, tunneling and thermal promotion. D. A. Zwemer and C. B. Harris J. Chem. Phys. 68, 2184 (1978). 67. Energy exchange in a coherently coupled ensemble. H. C. Brenner, J. C. Brock and C. B. Harris Chem. Phys. 31, 137 (1978). 68. Coherent energy transfer in solids. C. B. Harris and D. A. Zwemer Annu. ReV. Phys. Chem. 29, 473 (1978). 69. Intermolecular energy exchange as a mechanism for vibrational dephasing in polyatomic molecules. C. B. Harris, R. M. Shelby and P. A. Cornelius Chem. Phys. Lett. 57, 8 (1978). 70. Optical spectroscopy of adsorbed molecules on metal surfaces using scanning spectroscopic ellipsometry. C. B. Harris Paper presented at the American Chemical Society National Meeting in Miami Beach, Florida, September 1978. 71. Spin dephasing in impurity induced states in molecular solids. D. A. Zwemer, C. B. Harris and H. C. Brenner Chem. Phys. Lett. 57, 505 (1978). 72. The origin of optical dephasing in liquids and solids. C. B. Harris, P. A. Cornelius and R. M. Shelby AdVances in Laser Chemistry, A. H. Zewail, ed., Springer Series in Chemical Physics, p 223, 1978. 73. The origin of vibrational dephasing of polyatomic molecules in condensed phases. R. M. Shelby, C. B. Harris and P. A. Cornelius J. Chem. Phys. 70, 34 (1979). 74. Coherent averaging of electron spins by rotary echoes in excited triplet states. M. E. Tarrasch and C. B. Harris Chem. Phys. 37, 293 (1979). 75. Optical spectroscopy of aromatic hydrocarbons on Ni(lll) surface. C. B. Harris, D. A. Zwemer A. R. Gallo and H. J. Robota Surf. Sci. 85, l, (1979). 76. Energy transfer in one-dimensional substitutionally disordered systems. II. Experimental results for l,2,4,5tetrachlorobenzene. D. A. Zwemer and C. B. Harris Chem. Phys. 38, 139 (1979). 77. Use of an “ordered” electron spin state in molecular spectroscopy: Theoretical and experimental considerations of spin-ordering in excited states. J. C. Brock and C. B. Harris Chem. Phys. 43, 55 (1979). 78. The use of electron spin coherence techniques to study properties of excited triplet states. C. B. Harris Abstract to the Conference on Dynamical Processes in the Excited State of Ions and Molecules in Solids, Madison, Wisconsin, June l8-20, 1979.

79. Heat pulses in molecular solids: Phonon-induced delocalization of trapped excited triplet states. A. R. Burns and C. B. Harris Mol. Cryst. Liq. Cryst. Special Issue, 58, l (1980). 80. A critical test of vibrational dephasing theories in liquids using selective coherent picosecond Stokes scattering. C. B. Harris, H. Auweter and S. M. George Phys. ReV. Lett. 44, 737 (1980). 81. Electronic energy transfer to metal surfaces: A test of classical image dipole theory at short distances. A. Campion, A. R Gallo, C. B. Harris, H. J. Robota and P. M. Whitmore Chem. Phys. Lett. 73, 447 (1980). 82. A critical test of vibrational dephasing theories in solids using spontaneous Raman scattering in isotopically mixed crystals. S. Marks, P. A. Cornelius and C. B. Harris J. Chem. Phys. 73, 3069 (1980). 83. The dynamics and structure of liquids revealed by the homogeneous and inhomogeneous broadening of liquid vibrational transitions. C. B. Harris, H. Auweter and S. M. George Picosecond Phenomena Conference Proceedings, Springer Series in Chemical Physics, 14, pp l5l, l80. 84. Inhomogeneous broadening of vibrational line widths in polyatomic liquids. S. M. George, H. Auweter and C. B. Harris J. Chem. Phys. 73, 5573 (1980). 85. 85. The use of optical techniques for studying aromatic hydrocarbons on single-crystal metal surfaces. C. B. Harris, H. J. Robota and P. M. Whitmore Abstract presented at the Ninth Molecular Crystal Symposium, Austria, Sept. 1980. 86. The role of self-phase modulation in stimulated Raman scattering from more than one mode. P. A. Cornelius and C. B. Harris Opt. Lett. 6, 128 (1981). 87. A passively mode-locked Nd:Glass laser oscillator optimized for TEM00 selectivity and long-term stability and reliability S. M. George and C. B. Harris ReV. Sci. Instrum. 52, 852 (198l). 88. Optical properties of molecules chemisorbed on the Ni(lll) surface. H. J. Robota, P. M. Whitmore and C. B. Harris J. Chem. Phys. 76, l692 (1982). 89. Electronic energy transfer from pyrazine to a silver(lll) surface between l0 Å and 400 Å. P. M. Whitmore, H. J. Robota and C. B. Harris J. Chem. Phys. Commun. 76, 740 (1982). 90. The temperature dependence of homogeneous and inhomogeneous vibrational line width broadening studies using coherent picosecond Stokes scattering. S. M. George, A. L. Harris, M. Berg and C. B. Harris Picosecond Phenomena III. ed. by K. B. Eisenthal, R. M. Hochstrasser, W. Kaiser and A. Laubereau, Springer Series in Chemical Physics, 23, 196, Springer-Verlag: Berlin, Heidelberg, N. Y. (1982). 91. Mechanisms for electronic energy transfer between molecules and metal surfaces: A comparison of silver and nickel. P. M. Whitmore, H. J. Robota and C. B. Harris J. Chem. Phys. 77, l560 (1982). 92. Dependence of inhomogeneous vibrational line width broadening on attractive forces from local liquid number densities. S. M. George and C. B. Harris J. Chem. Phys. Notes 77, 4781 (1982). 93. Enhanced photofragmentation on a silver surface. G. M. Goncher and C. B. Harris J. Chem. Phys. Commun. 77, 3767 (1982).

19754 J. Phys. Chem. B, Vol. 110, No. 40, 2006 94. Theory for selective vibrational dephasing experiments using transient stimulated Raman scattering in high laser depletion. S. M. George and C. B. Harris Phys. ReV. A 28, 863 (1983). 95. Distance dpendence of electronic energy transfer to semiconductor surfaces: 3nπ* pyrazine/GaAs(ll0). P. M. Whitmore, A. P. Alivisatos and C. B. Harris Phys. ReV. Lett. 50, l092 (1983). 96. Transient stimulated Raman scattering in high laser depletion and its efects on vibrational dynamics experiments. D. Ben-Amotz, S. M. George and C. B. Harris Chem. Phys. Lett. 97, 533 (1983). 97. Picosecond vibrational dephasing experiments in liquids under high laser depletion conditions. D. Ben-Amotz, M. Berg, S. M. George, A. L. Harris and C. B. Harris Conference proceedings, NATO AdVanced Research Workshop on “Applications of Picosecond Laser Spectroscopy to Chemistry”, ed. K. Eisenthal, Reiden publishers, Holland (1983). 98. Picosecond studies of the temperature dependence of homogeneous and inhomogeneus vibrational line width broadening in liquid acetonitrile. S. M. George, A. L. Harris, M. Berg and C. B. Harris J. Chem. Phys. 80, 83 (1984). 99. Generation of tunable picosecond pulses in the vibrational infrared by stimulated electronic Raman scattering of rhodamine dye lasers pulses from the 6s-5d cesium transition. M. Berg, A. L. Harris, J. K. Brown and C. B. Harris Opt. Lett. 9, 50 (1984). 100. Generation of widely tunable nanosecond pulses in the vibrational infrared by stimulated Raman scattering from the cesium 6s-5d transition. A. L. Harris, J. K. Brown, M. Berg and C. B. Harris Opt. Lett. 9, 47 (1984). 101. l0l. Photochemistry on metal surfaces. G. M. Goncher, C. A. Parsons and C. B. Harris J. Phys. Chem. 88, 4200 (1984). 102. A New picosecond source in the vibrational infrared. A. L. Harris, M. Berg, J. K. Brown and C. B. Harris Ultrafast Phenomena IV. Eds. D. H. Auston and K. B. Eisenthal, Springer Series in Chemical Physics 38, 52, Springer-Verlag Publishers (1984). 103. Iodine photodissociation in solution: New transient absorptions. M. Berg, A. L. Harris, J. K. Brown and C. B. Harris Ultrafast Phenomena IV. Eds. D. H. Auston and K. B. Eisenthal, Springer Series in Chemical Physics 38, 300, Springer-Verlag Publishers (1984). 104. Non-Classical behavior of energy transfer from molecules to metal surfaces: Biacetyl (3nπ*)/Ag(lll). A. P. Alivisatos, D. H. Waldeck and C. B. Harris J. Chem. Phys. 82, 541 (1985). 105. Enhanced photochemistry on metal surfaces G. M. Goncher, C. A. Parsons and C. B. Harris Proceedings of Materials Research Society, Boston, Materials Research Society Publishers, Nov. 1984. 106. Rapid solvent-induced recombination and slow energy relaxation in a simple chemical reaction: Picosecond studies of Iodine photodissociation in CCl4. M. Berg, A. L. Harris and C. B. Harris Phys. ReV. Lett. 54, 95l (1985). 107. Nonradiative damping of molecular electronic excited states by metal surfaces. D. H. Waldeck, A. P. Alivisatos and C. B. Harris Surf. Sci. 158, 103 (1985).

108. Ground and excited-state torsional dynamics of a triphenylmethane dye in low viscosity solvents. Dor Ben Amotz and C. B. Harris Chem. Phys. Lett. 119, 305 (1985). 109. Generation of intense tunable picosecond pulses in the farinfrared M. Berg, C. B. Harris, T. W. Kenny and P. L. Richards Appl. Phys. Lett. 47, 206 (1985). 110. Studies of chemical reactivity in the condensed phase. I. The dynamics of iodine photodissociation and recombination on a picosecond time scale and comparison to theories for chemical reactions in solution. A. L. Harris, M. Berg and C. B. Harris J. Chem. Phys. 84, 788 (1986). 111. Studies of chemical reactivity in the condensed phase: II. vibrational relaxation of geminately recombined iodine atoms in liquid xenon. M. E. Paige, D. J. Russel and C. B. Harris J. Chem. Phys., Commun. 85, 3699 (1986). 112. Picosecond studies of barrierless torsional diffusion. D. Ben-Amotz and C. B. Harris Ultrafast Phenomena V. Eds. G. R. Fleming and A. E. Siegman, Springer-Series in Chemical Physics 46, 350, Springer Verlag Publishers (1986). 113. Picosecond studies of barrierless isomerization in liquids. D. Ben-Amotz and C. B. Harris Proceedings of the International Conference on Quantum Electronics (IQEC′86) Optical Society of America Publishers, (1986). 114. Ultrafast studies designed to test the fundamental statistical assumptions underlying chemical reactivity in liquids. C. B. Harris, J. K. Brown, M. E. Paige, D. E. Smith and D. J. Russell Ultrafast Phenomena V. Eds. G. R. Fleming and A. E. Siegman, Springer-Series in Chemical Physics 46, 326, Springer Verlag Publishers (1986). 115. Torsional dynamics of molecules on barrierless potentials in liquids: I. Temperature and wavelength-dependent picosecond studies of triphenyl-methane dyes. Dor BenAmotz and C. B. Harris J. Chem. Phys. 86, 4856 (1987). 116. Torsional dynamics of molecules on barrierless potentials in liquids: II. Test of theoretical models. Dor BenAmotz and C. B. Harris J. Chem. Phys. 86, 5433 (1987). 117. Torsional dynamics of molecules on barrierless potentials in liquids: III. Pressure dependent picosecond studies of triphenyl-methane dye solutions in a diamond anvil cell. Dor Ben-Amotz, R. Jeanloz and C. B. Harris J. Chem. Phys. 86, 6119 (1987). 118. Electronic energy transfer at semiconductor interfaces: I. Energy transfer from two-dimensional molecular films to Si(lll). A. P. Alivisatos, M. F. Arndt, S. Efrima, D. H. Waldeck and C. B. Harris J. Chem. Phys. 86, 6540 (1987). 119. Studies of chemical reactivity in the condensed phase. III. Direct measurement of predissociation and geminate recombination times for iodine in solution. D. E. Smith and C. B. Harris J. Chem. Phys. 87, 2709 (1987). 120. Theoretical studies of vibrational relaxation of iodine in low-density liquid xenon. J. K. Brown, D. J. Russell, D. E. Smith and C. B. Harris ReV. Phys. Appl. France, Vol. 22, N12, 1787 (1987). 121. The nature of simple photodissociation reactions in liquids on ultrafast time scales. A. L. Harris, J. K. Brown and C. B. Harris Annu. ReV. Phys. Chem. 39, 341 (1988).

J. Phys. Chem. B, Vol. 110, No. 40, 2006 19755 122. Picosecond studies of the nonradiative decay dynamics of triphenyl-methane dyes in a diamond anvil pressure cell. Dor Ben-Amotz and C. B. Harris Proceedings of IQEC′87, Baltimore, Optical Society of America Publishers (1987). 123. Studies of chemical reactivity in the condensed phase. IV. Density dependent molecular dynamics simulations of vibrational relaxation in simple liquids. J. K. Brown, C. B. Harris and J. C. Tully J. Chem. Phys. 89, 6687 (1988). 124. Ultrafast Phenomena VI, Y. Yajima, K. Yoshihara, C. B. Harris, S. Shionoya (eds.) Springer Series Chemical Physics, Springer, Berlin, Heidelberg (1988). 125. A new technique for the determination of surface adsorbate geometries utilizing second harmonic generation and absorption band shifts. E. S. Peterson and C. B. Harris J. Chem. Phys. 91, 2683 (1989). 126. Time-Resolved luminescence of electron-hole pairs in CdSxSe1-x graded semiconductors. J. K. Hane, M. G. Prisant, C. B. Harris, G. J. Meyers, L. K. Leung and A. B. Ellis. J. Phys. Chem. Lett. 93, 7975 (1989). 127. Ultrafast studies of transition metal carbonyl reactions in condensed phase. Solvation of coordinatively unsaturated pentacarbonyls. M. Lee and C. B. Harris J. Am. Chem. Soc. Commun. 111, 8963 (1989). 128. Generalized brownian dynamics. I. Numerical integration of the generalized Langevin equation through autoregressive modeling of the memory function. D. E. Smith and C. B. Harris J. Chem. Phys. 92, 1304 (1990). 129. Generalized brownian dynamics. II. Vibrational relaxation of diatomic molecules in solution. D. E. Smith and C. B. Harris J. Chem. Phys. 92, 1312 (1990). 130. Vibrational Relaxation of Diatomic Molecules in Liquids. C. B. Harris, D. E. Smith and D. J. Russell Chem. ReV. 90, 481 (1990). 131. Level Crossing in Liquids Involving Intermolecular Electronic to Vibrational Energy Transfer. M. E. Paige and C. B. Harris J. Chem. Phys. Notes 93, 1481 (1990). 132. A Generic Test of the Gas-Phase Isolated Binary Collision Theories for Vibrational Relaxation at Liquid-State Densities Based on the Rescaling Properties of Collision Frequencies. M. E. Paige and C. B. Harris J. Chem. Phys., Commun. 93, 3712 (1990). 133. Ultrafast Studies of Chemical Reactions in Liquids: I. Validity of Gas-Phase Vibrational Relaxation Models and II. Density Dependence of Bound Electronic State Lifetimes. M. E. Paige and C. B. Harris Chem. Phys. 149, 37 (1990). 134. Energy Dissipation in Chemical Reactions on Ultrafast Time scales. D. J. Russell, M. E. Paige and C. B. Harris Ber. Bunsen-Ges. Phys. Chem. 95, 299 (1991). 135. Generalized Brownian Dynamics III. Vibrational Relaxation of Heteronuclear Diatomics in Rare Gases. J. Z. Zhang and C. B. Harris J. Chem. Phys. 94, 5586 (199l). 136. Photodissociation Dynamics of Mn2(CO)10 in Solution on Ultrafast Time scales. J. Z. Zhang and C. B. Harris J. Chem. Phys. 95, 4024 (199l). 137. Direct Observation of Fast Proton Transfer: Femtosecond Photophysics of 3-Hydroxyflavone. B. J. Schwartz, L. A. Peteanu and C. B. Harris J. Phys. Chem. 96, 3591 (1992). 138. The Applicability of Binary Collision Theories to Complex Molecules in Simple Liquids K. E. Schultz, D. J. Russell and C. B. Harris J. Chem. Phys. 97, 5431 (1992).

139. Dynamics of Photothermal Surface Expansion Using Laser-Induced Holographic Gratings. D. M. Pennington and C. B. Harris IEEE J. Quantum Electron. Special Issue, 28, 2523 (1992). 140. Energy Relaxation and Redistribution in Large molecules in Solution on Ultrafast Time Scales. C. B. Harris, J. C. King, K. E. Schultz, B. J. Schwartz and J. Z. Zhang, Springer Series in Chemical Physics, Vol. 55, Ultrafast Phenomena VIII. Eds. J. L. Martin et al., p 650, 1993, Springer Verlag publishers. 141. Solvent Effects on the Fast Proton Transfer of 3-Hydroxyflavone. B. J. Schwartz, L. A. Peteanu and C. B. Harris, Springer Series in Chemical Physics, Vol. 55, Ultrafast Phenomena VIII. Eds. J. L. Martin et al., p 592, 1993, Springer Verlag Publishers. 142. Two-Photon Photoemission as a Probe of Electron Interaction with Adsorbates and Thin Dielectric Films on Metal Surfaces. D. F. Padowitz, W. R. Merry, R. E. Jordan and C. B. Harris Phys. ReV. Lett. 69, 3583 (1992). 143. Direct Femtosecond Measurements of Single Collision dominated Geminate Recombination Times of Small Molecules in Liquids. B. J. Schwartz, J. C. King, J. Z. Zhang and C. B. Harris Chem. Phys. Lett. 203, 503 (1993). 144. Ultrafast Studies of Photochromic Spiropyrans in Solution. J. Z. Zhang, B. J. Schwartz, J. C. King and C. B. Harris J. Am. Chem. Soc. 114, 10922, (1992). 145. The Dynamics of Exciton Tunneling and Trapping in Condensed Xenon on Ultrafast Time scales. E. S. Peterson, B. J. Schwartz and C. B. Harris J. Chem. Phys. 99, 1693 (1993). 146. The Molecular Basis of Solvent Caging. B. J. Schwartz, J. C. King and C. B. Harris Book chapter Ultrafast Spectroscopy in Chemical Systems, p 235-248, ed. John D. Simon, Kluwer Academic Publishing (1994). 147. Properties of Electrons at Metal-Insulator Interfaces I. The Effect of Xe Monolayers on the Image Potential States of Ag(lll). W. R. Merry, R. E. Jordan, D. F. Padowitz and C. B. Harris Surf. Sci. 295, 393 (1993). 148. Localization of Electrons at Interfaces. R. J. Lingle, D. F. Padowitz, R. E. Jordan, J. D. McNeill and C. B. Harris Conference Proceeding: 26th Jerusalem Symposium on Quantum Chemistry and Biochemistry, eds. B. Pullman, J. Jortner and R. Levine, Kluwer publishing, p l69 (1994). 149. An Exact Phase Shift Model for Image States on Metal Surfaces with Alkali Metal Overlayers. J. D. McNeill and C. B. Harris Solid State Commun. 87, 1089 (1993). 150. Vibrational Relaxation in Simple Fluids: A Comparison of Experimental Results to the Predictions of Isolated Binary Collision Theory. D. J. Russell and C. B. Harris Chem. Phys., “Dissipative Dynamics”, Special Issue, 183, 325 (1994). 151. Vibrational Relaxation of M(CO)6 (M ) Cr, Mo, W): Effect of Metal Mass on Vibrational Cooling Dynamics and NonBoltzmann Internal Energy Distributions. J. C. King, J. Z. Zhang, B. J. Schwartz and C. B. Harris J. Chem. Phys. 99, 7595 (1993). 152. Two-Dimensional Localization of Electrons at Interfaces. R. L. Lingle, D. F. Padowitz, R. E. Jordan, J. D. McNeill and C. B. Harris Phys. ReV. Lett. 72, 14, 2243 (1994).

19756 J. Phys. Chem. B, Vol. 110, No. 40, 2006 153. Two-Photon Photoemission and the Dynamics of Electrons at Interfaces. D. F. Padowitz, C. B. Harris, R. E. Jordan, R. L. Lingle, J. D. McNeill and W. R. Merry SPIE Proceedings, Vol. 2125, Laser Techniques for Surface Science (1994). 154. 154. Ultrafast Studies of Metal-Metal Bond Cleavage in Fe3(CO)12 in Solution. N. J. Tro, J. C. King and C. B. Harris Inorg. Chim. Acta 229, 469-471 (1995). 155. Femtosecond Studies of Electron Tunneling at MetalDielectric Interfaces. R. L. Lingle, Jr., N.-H. Ge, R. E. Jordan, J. D. McNeill and C. B. Harris Chem. Phys. 205, 191-203 (1996). 156. Ultrafast Dynamics of Sterically Hindered Tetraphenylmethylbutadiene in Liquids. R. L. Rucker, B. J. Schwartz, Ashraf El-Bayoumi and C. B. Harris Chem. Phys. Lett. 235, 47l (1995). 157. Ultrafast Dynamics of Cp*M(CO)2 (M ) Ir, Rh) in Solution: The Origin of the Low Quantum Yields for C-H Bond Activation. S. E.Bromberg, T. Lian, R. G. Bergman and C. B. Harris J. Am. Chem. Soc. 118, 8, 2069-2072 (1996). 158. 158. Interfacial Quantum Well States of Xe and Kr Adsorbed on Ag (lll). J. D. McNeill, R. L. Lingle, Jr., R. E. Jordan, D. E. Padowitz and C. B. Harris J. Chem. Phys. 105, (9) 3883 (1996). 159. Femtosecond IR Studies of Alkane C-H Bond Activation by Organometallic Compounds: Direct Observation of Reactive Intermediates in Room-Temperature Solultions. T. Lian, S. E. Bromberg, H. Yang, G. Proulx, R. G. Bergman and C. B. Harris J. Am. Chem. Soc. 118, 15, 3769-3770 (1996). 160. Femtosecond Infrared Studies of the Dissociation of Metal Carbonyls in Solution. T. Lian. S. E. Bromberg, M. Åsplund, H. Yang and C. B. Harris J. Phys. Chem. 100, 29, 11994 (1996). 161. Femtosecond Studies of Electron Dynamics in Two Dimensions. C. B. Harris, J. D. McNeill, N.-H. Ge, R. E. Jordan, R. L. Lingle Ultrafast Phenomena X. P. Barbara et al. ed. Springer Verlag: Berlin, p 445 (1996). 162. Femtosecond IR Studies of C-H Bond Activation by Organometallic Compounds. C. B. Harris, T. Lian, S. Bromberg, H. Yang, M. Asplund, R. Bergman Ultrafast Phenomena X. P. Barbara et al. ed. Springer Verlag: Berlin, p 237 (1996). 163. Femtosecond IR Studies of Solvation by Probing the Solvent. T. Lian, H. Yang, M. Asplund, S. Bromberg and C. B. Harris Ultrafast Phenomena X. P. Barbara et al. ed. Springer Verlag: Berlin, p 300 (1996). 164. Femtosecond Dynamics of Electrons on Surfaces and at Interfaces. C. B. Harris, N.-H. Ge, R. L. Lingle, J. D. McNeill and C. M. Wong Annu. ReV. Phys. Chem. 48, 711 (1997). 165. Femtosecond Dynamics of Electron Localization at Interfaces. N.-H. Ge, C. M. Wong, R. L. Lingle, J. D. McNeill, K. J. Gaffney and C. B. Harris Science 279, p 202 (1998). Also see (a) This week in Science, Science 279, 149 (1998). (b) Research - Condensed Matter Physics, Science 279, 190 (1998) U. Hofer. 166. The Mechanism of C-H Bond Activation Reaction in Room-Temperature Alkane Solutions. S. E. Bromberg, H. Yang, M. Asplund T. Lian, B. McNamara, K. Kotz, J. S. Yetson, M.Wilkens, H. Frei, R. Bergman and C. B. Harris Science 278, 260 (1997) (cover).

167. Dynamics and Spatial Distribution of Electrons in Quantum Wells at Interfaces by Femtosecond Photoemission Spectroscopy. J. D. McNeill, R. L. Lingle, N.-H. Ge, C. M. Wong, R. E. Jordan and C. B. Harris Phys. ReV. Lett. 79, 4645 (1997). 168. Femtosecond Infrared Studies of Silane Silicone-Hydrogen Bond Activation. H.Yang, K. Kotz, M. Asplund and C. B. Harris J. Am. Chem. Soc. 119, 40, 9564-9565 (1997). 169. The Reaction Mechanism of Silicon-Hydrogen Bond Activation Studied Using Femtosecond to Nanosecond IR Spectroscopy and ab initio Methods. H. Yang, M. C. Asplund, K. T. Kotz, M. J. Wilkens and C. B. Harris J. Am. Chem. Soc. 120, 10154 (1998). 170. Ultrafast Infrared Studies of Bond Activation in Organometallic Complexes. C. B. Harris, M. C. Asplund, H. Yang, K. T. Kotz and M. J. Wilkens Acc. Chem. Res. 32, 551-560 (1999) (cover). 171. Excited Electron Dynamics at Benzene/Ag(111). C. B. Harris, J. D. McNeill, N.-H.Ge, C. M. Wong, K. J. Gaffney, S. H. Liu and A. D. Miller Ultrafast Phenomena XI Conference Proceedings, Springer Series in Chemical Physics, 336-338, Eds. T. Els, J. G. Fujimoto, D. Wiersma and W. Zinth (1998). 172. Femtosecond Dynamics of Quantum Dissipative Systems: Localization of Electrons at Interfaces C. B. Harris, N.-H.Ge, C. M. Wong, J. D. McNeill and K. J. Gaffney Ultrafast Phenomena XI Conference Proceedings, Springer Series in Chemical Physics, pp 618-620. Eds. T. Els, J. G. Fujimoto, D. Wiersma and W. Zinth (1998). 173. Femtosecond Infrared Studies of Chemical Bond Activation. M. C. Asplund, H. Yang, K. T. Kotz, S. E.Bromberg. M. J. Wilkens and C. B. Harris Proceedings of Time-ResolVed Vibrational Spectroscopy Conference, special issue of Laser Chemistry, 19, pp 253-262, Gordon Breach Publishing Company (1999). 174. Femtosecond Studies of Electron Dynamics at DielectricMetal Interfaces. C. M. Wong, J. D. McNeill, K. J. Gaffney, N.-H. Ge, A. D. Miller, S. H. Liu and C. B. Harris J. Phys. Chem. 103, 282-292, (1999) (cover). 175. Femtosecond Studies of Electron Dynamics at Surfaces. N.-H. Ge, C. M. Wong and C. B. Harris Acc. Chem. Res. 33, 2, 111-118 (2000). 176. 176. Femtosecond Electron Dynamics at the Benzene/ Ag(111)intrerfaces. K. J.Gaffney, C. M. Wong. S. H. Liu, A. D. Miller, J. D. McNeill and C. B. Harris InVited paper - Special Issue of Chemical Physics, 251, 99110 (2000). 177. Femtosecond Infrared Studies of Prototypical One-Electron Oxidative-Addition Reaction: Chlorine Atom Abstraction by the Re(CO)5 Radical. H. Yang, P. T. Snee, K. T. Kotz, C. K. Payne, H. Frei and C. B. Harris J. Am. Chem. Soc. 121, 39, 9227-9228 (1999). 178. Femtosecond Infrared Studies of the Reaction Mechanism of Silicon-Hydrogen Bond Activation by η5-CpV(CO)4 P. Snee, H. Yang, K. Kotz, C. Payne and C. B. Harris J. Phys. Chem. 103, 49, 10426-10432 (1999). 179. Probing Bond ActiVation Reaction With Femtosecond Infrared. H. Yang and C. B. Harris Book Chapter, “Ultrafast Infrared and Raman Spectroscopy”, 26, pp 81-116, 2001, Marcel Dekker Inc. Publishers.

J. Phys. Chem. B, Vol. 110, No. 40, 2006 19757 180. Femtosecond Infrared Studies of Ligand Rearrangement Reactions: Silyl Hydride Products from group 6 carbonyls. K. Kotz, H. Yang. P.Snee, C. Payne and C. B. Harris J. Organomet. Chem. 596/1-2, 183-192 (2000). 181. Femtosecond Dynamics of Resonant Charge Transfer at Metal Surfaces. C. M. Wong, K. J. Gaffney and C. B. Harris Submitted to Phys. ReV. B (1999). 182. The adsorbate Electron Affinity Dependence of Femtosecond Electron Dynamics at Dielectric/metal Interfaces. K. J. Gaffney, S. H. Liu, A. D. Miller, P. Szymanski and C. B. Harris J. Chin. Chem. Soc. invited paper, 47, 759-763 (2000). 183. Triplet Organometallic Reactivity Under Ambient Conditions: An Ultrafast UV Pump/IR Probe Study. P. T. Snee, C. K. Payne, K. T. Kotz, H. Yang and C. B. Harris J. Am. Chem. Soc. 123, 2255-2264, (2001). 184. Femtosecond Electron Dynamics at Surfaces and Interfaces. C. B. Harris, A. D. Miller, S. H. Liu, K. J. Gaffney Ultrafast Phenomena Conference XII Proceedings. Eds. T. Elsaser, S. Mukamel, M. Murnane, N. F. Sherer, pp 439-444, Springer Verlag Publishers (2000). 185. Ultrafast Infrared Studies of Ligand Rearrangement at Coordinated Unsaturated Transition Metal Cluster K. T. Kotz, H. Yang, P. T. Snee, C. K. Payne and C. B. Harris Ultrafast Phenomena Conference XII Proceedings. Eds. T. Elsaser, S. Mukamel, M. Murnane N. F. Sherer, pp 636-639, Springer Verlag Publishers (2000). 186. Femtosecond Infrared Studies of the Dynamics of Solvation and Solvent Caging. H. Yang, P. Snee, K. Kotz, C. Payne and C. B. Harris J. Am. Chem. Soc. 123, 18, 4204-4210 (2001). 187. Femtosecond Dynamics of Electron Localization and SolVation at Interfaces. K. Gaffney, A. Miller, S. Liu, Nien-Hui Ge, P. Szymanski, S. Garrett-Roe and C. B. Harris. Invited Book Chapter, “Time-Resolved Photoemission from Solids: Principles and Applications”, eds. M. Wolf, M. Aeschlimann, Springer Verlag Publishers (2000). 188. Femtosecond Dynamics of Electrons Photoinjected into Organic Semiconductors at Aromatic-Metal Interfaces. K. Gaffney, A. Miller, S. Liu and C. B. Harris J. Phys. Chem. B, Cover, 105, 9031 (2001). 189. Intramolecular rearrangements on ultrafast time scales. Femtosecond infrared studies of ring slip in (η1C C )Mn(CO) . C. Payne, P. Snee, H. Yang, K. Kotz, 5 15 5 L. Schafer, D. Tilley and C. B. Harris J. Am. Chem. Soc. Commun. 123, 30, 7425 (2001). 190. Dynamics of photosubstitution reactions of Fe(CO)5: An ultrafast infrared study of high spin reactivity. P. Snee, C. Payne, S. Mebane, K. Kotz and C. B. Harris J. Am. Chem. Soc. 123, 6909 (2001). 191. Evolution of a Two-dimensional Band Structure at a Selfassembling Interface. A. H. Miller, K. J. Gaffney, S. H. Liu, P. Szymanski, S. Garrett-Roe, C. M. Wong and C. B. Harris J. Phys. Chem. A 106, 33, 7636 (2002). 192. Ultrafast UV Pump/IR Probe Studies of C-H Activation in Linear, Cyclic and Aryl Hydrocarbons M. Asplund, P. Snee, J. Yeston, M. Wilkens, C. Payne, H. Yang, K. Kotz, H. Frei, R. Bergman and C. Harris. J. Am. Chem. Soc. 124, 10605-10612 (2002). 193. Direct observation of Two-Dimensional Electron Solvation at a Ag(111) Alcohol Interface. S. Liu, A. Miller, P.

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Szymanski, S. Garrett-Roe, I. Bezel and C. B. Harris J. Phys. Chem. B 106, 33, 12908 (2002) (cover). Electron Solvation in Two Dimensions. A. Miller, I. Bezel, K. Gaffney, S. Garrett-Roe, S. Liu, P. Szymanski and C. B. Harris Science 297, 1163-1166 (2002). Also see "This Week in Science” 297, 1089 (2002). The Dynamics of An Excess Electron at Metal/Polar Interfaces. Preston T. Snee, S. Garrett-Roe and C. B. Harris J. Phys. Chem. B 107, 49, 13608 (2003). 196. Measurement and Dynamics of the Spatial Distribution of an Electron Localized at a Metal/dielectric Interface. I. Bezel, K. Gaffney, S. Garrett-Roe, S, Liu, A. Miller, P. Szymanski and C. B. Harris J. Chem. Phys. 120, 2, 845 (2004). Time-Angle-Resolved Two-Photon Photoemission Studies of Electron Localization and Solvation at Interfaces. P. Szymanski, S. Garrett-Roe and C. B. Harris Prog. Surf. Sci. 78, 1-39 (2005). The Role of Odd-electron intermediates and In-cage Electron Transfer in Ultrafast Photochemical Disproportionation Reactions in Lewis Bases. M. F. King, J. F. Cahoon, E. A. Glascoe, J. E. Shanoski and C. B. Harris J. Am. Chem. Soc. Commun. 126, 11414-11415 (2004). The Mechanism of Ligand Exchange Studied Using Transition Path Sampling. P. T. Snee, J. E. Shanoski, and C. B. Harris J. Am. Chem. Soc. 127, 1286-1290 (2005). An Ultrafast Infrared Mechanistic Study of the Interaction of Alkynes with group 6 Hexacarbonyl Complexes. J. K. Shanoski, C. K. Payne, M. F. Kling, E. A. Glascoe and C. B. Harris Organometallics 24, 1852-1859 (2005). Determination of Band-Curvatures by Angle-Resolved Two-Photon Photoemission in Thin Films of C(60) on Ag(111). S. T. Shipman, S. Garrett-Roe, P. Szymanski, A. Yang, M. L. Strader and C. B. Harris J. Phys. Chem. B 110, 10002-10010 (2006). 19-Electron Intermediates and Cage Effects in the Photochemical Disproportionation of (CpW(CO)3)2 With Lewis Bases. J. F. Cahoon, M. F. Kling, S. Schmatz and C. B. Harris J. Am. Chem. Soc. 127, 12555-12565 (2005). Ultrafast Electron Dynamics at Metal Interfaces: Intraband Relaxation of Image State Electrons as Friction. S. Garrett-Roe, S. T. Shipman, P. Szymanski, M. L. Strader, A. Yang and C. B. Harris J. Phys. Chem. B 109, 20370 (2005). The Nature and Role of Bridged Carbonyl Intermediates in the Ultrafast Photoinduced Rearrangement of Ru3(CO)12. E. A. Glascoe, M. F. Kling, J. E. Shanoski and C. B. Harris Organometallics 3, 775-784 (2006). Ligand Rearrangement Reaction of Cr(CO)6 to Alcohol Solutions: Experiment and Theory. J. E. Shanoski, E. A. Glascoe and C. B. Harris J. Phys. Chem. B 110, 9961005 (2006). 19-electron intermediates in the Ligand Substitution of CpW(CO)3 with a Lewis Base. J. F. Cahoon, M. F. Kling, K. R. Sawyer, H. Frei and C. B. Harris J. Am. Chem. Soc. Commun. 128, 3152-3153 (2006).