Publications: 1990-1999

60. Michael H. Schmidt, Gordon M. Miskelly, and Nathan S. Lewis, "Effects of Redox Potential, Steric Configuration, Solvent, and Alkali Metal Cations on the Binding of Carbon Dioxide to Cobalt(I) and Nickel(I) Macrocycles," J. Am. Chem. Soc, 1990, 112, 3420.

64. Nathan S. Lewis, "Chemical Methods for the Conversion and Storage of Solar Energy", McGraw‑Hill Yearbook of Science and Technology, McGraw‑Hill Publishing Company, New York., 1991, 138.

65. James P. Collman, Paul S. Wagenknecht, Robert T. Hembre, and Nathan S. Lewis, "Dihydrogen Complexes of Metalloporphyrins: Characterization and Hydrogen Transfer Reactivity," J. Am. Chem. Soc., 1990, 112, 1294.

66. Nathan S. Lewis, "Mechanistic Studies of Light‑Induced Charge Separation at Semiconductor/Liquid Interfaces", Accounts Chem. Res., 1990, 23, 176.

67. Amit Kumar and Nathan S. Lewis, "Short Wavelength Spectral Response Properties of Semiconductor/Liquid Junctions", J. Phys. Chem., 1990, 94, 6002.

68. Amit Kumar, Mark D. Rosenblum, Delwyn L. Gilmore, Bruce J. Tufts, Mary L. Rosenbluth, and Nathan S. Lewis, "Fabrication of Minority Carrier Limited n‑Si/Insulator/Metal Diodes", Appl. Phys. Lett., 1990, 56, 1919.

69. Michael J. Sailor, Floyd L. Klavetter, Robert H. Grubbs, and Nathan S. Lewis, "Electronic Properties of Junctions Between Silicon and Organic Conducting Polymers" Nature, 1990, 346, 155.

70. Bruce J. Tufts, Ian L. Abrahams, Catherine E. Caley, Sharon R. Lunt, Gordon Miskelly, Michael J. Sailor, Patrick G. Santangelo, Nathan S. Lewis, Britt M. Hedman, A. Lawrence Roe, and Keith O. Hodgson, "XPS and EXAFS Studies of the Reactions of Co(III) Ammine Complexes with GaAs Surfaces", J. Am. Chem. Soc., 1990, 112, 5123.

71. Malcolm D. E. Forbes and Nathan S. Lewis, "Real Time Measurements of Interfacial Charge Transfer Rates at Silicon/Liquid Junctions," J. Am. Chem. Soc., 1990, 112, 3682.

72. Bruce J. Tufts, Louis G. Casagrande, Frank J. Grunthaner, and Nathan S. Lewis, "Correlations Between the Interfacial Chemistry and Current‑Voltage Behavior of n‑GaAs/Liquid Junctions" Appl. Phys. Lett., 1990, 57, 1242.

73. Michael J. Sailor, Eric J. Ginsburg, Christopher B. Gorman, Amit Kumar, Robert H. Grubbs, and Nathan S. Lewis, "Thin Films of Conducting Polymers: An n‑Si/Poly‑(CH3)3Si‑cyclooctatetraene Solar Cell and Layered Polymeric Structures", Science, 1990, 249, 1146-1149.

74. Nathan S. Lewis, "More Efficient Solar Cells", News and Views, Nature, 1990, 345, 293.

75. Louis G. Casagrande, Bruce J. Tufts and Nathan S. Lewis, "Trends in the Open Circuit Voltage of Semiconductor/Liquid Interfaces: Studies of n‑AlxGa1‑xAs/CH3CN‑Ferrocene+/0 and n‑AlxGa1‑xAs/KOH‑Se2‑ (aq) Junctions," J. Phys. Chem., 1991, 95, 1373.

76. Reginald M. Penner, Michael J. Heben, Teresa L. Longin, and Nathan S. Lewis, "Fabrication and Use of Nanometer‑Sized Electrodes in Electrochemistry," Science, 1990, 250, 1118.

77. James P. Collman, James E. Hutchison, Paul S. Wagenknecht, Nathan S. Lewis, Michel, Angel Lopez and Roger Guilard, "An Unprecedented, Bridged Dihydrogen Complex of a Cofacial Metallodiporphyrin and its Relevance to the Bimolecular Reductive Elimination of Hydrogen", J. Am. Chem. Soc., 1990, 112, 8206.

78. Amit Kumar and Nathan S. Lewis, "Studies of Silicon Photoelectrochemical Cells Under High Injection Conditions", Appl. Phys. Lett., 1990, 57, 2730.

79. Eric J. Ginsburg, Christopher B. Gorman, Robert H. Grubbs, Floyd L. Klavetter, Nathan S. Lewis, Seth R. Marder, Joseph W. Perry, Michael J. Sailor, "Synthesis, Characterization, and Applications of Substituted Polyacetylenes Derived From Ring‑Opening Metathesis Polymerization of Cyclooctatetraenes." in Conjugated Polymeric Materials: Opportunities in Electronic, Opto‑electronics and Molecular Electronics, J.L. Brédas and R.R. Chance, Eds., Kluwer Academic Publishers: Netherlands, 1990, 65‑81.

80. Christopher B. Gorman, Eric J. Ginsburg, Michael J. Sailor, J. S. Moore, Tom H. Jozefiak, Nathan S. Lewis, and Robert H. Grubbs, "Substituted Polyacetylenes Through the Ring‑Opening Metathesis Polymerization (ROMP) of Substituted Cyclooctatetraenes, A Route into Soluble Polyacetylene", Synthetic Metals, 1991, 41, 1033.

81. Thomas H. Jozefiak, Michael J. Sailor, Eric J. Ginsburg, Christopher B. Gorman, Nathan S. Lewis and Robert H. Grubbs, "Soluble polyacetylenes derived from the ring-opening metathesis polymerization (ROMP) of substituted cyclooctatetraenes: electrochemistry characterization and Schottky barrier devices," Proc. SPIE , 1991, 1436, 8‑19. Photochemistry and Photoelectrochemistry of Organic and Inorganic Molecular Thin Films, Marcus F. Lawrence; Arthur J. Frank; S. Ramasesha; Carl C. Wamser; Eds.

82. Reginald M. Penner, Michael J. Heben, Nathan S. Lewis, and Calvin F. Quate, "Mechanistic Investigations of Nanometer‑Scale Lithography at Liquid‑Covered Graphite Surfaces", Applied Phys. Lett.., 1991, 58, 1389.

83. Amit Kumar and Nathan S. Lewis, Book Review for Nature, "Harnessing Solar Power: The Photovoltaics Challenge". By Ken Zweibel, Plenum, 1990, 310.

84. Reginald M. Penner, Rik Blumenthal, Michael J. Heben and Nathan S. Lewis, "Pulsed Induced Nanolithography of Graphite in H2O, A Road to Chemical Linkages to the Surfaces?" (abstract presented at STM Conf., Santa Barbara, CA), J. Vac. Sci. Tech. 1991.

85. Sharon R. Lunt, Patrick G. Santangelo and Nathan S. Lewis, "Passivation of GaAs Surface Recombination with Organic Thiols", J. Vac. Sci. Tech., 1991, 9, 2333.

86. Nathan S. Lewis, "An Analysis of Charge Transfer Rate Constants for Semiconductor/Liquid Interfaces", Ann. Rev. Phys. Chem., 1991, 42, 543.

87. Amit Kumar and Nathan S. Lewis, "Further Mechanistic Studies of n‑type Si Photoelectrodes: Behavior in Contact with Methanol‑Dimethylferrocene+/0 and in Contact with Aqueous Electrolytes", J. Phys. Chem., 1991, 95, 7021.

88. Ming Tan, Charlotte Newcomb, Amit Kumar, Sharon R. Lunt, Michael J. Sailor, Bruce Tufts, and Nathan S. Lewis, "Chemical Modification of n‑GaAs Photoanodes with Group VIIIB Metal Ions: Stability in Contact with 1.0 M KOH(aq)‑0.10 M K2Se(aq) Solutions and I‑V Properties in Contact with 1.0 M KOH(aq)‑1.0 M K2Te(aq) Electrolytes", J. Am. Chem. Soc., 1991, 95, 133.

89. Sharon L. Lunt, Gail N. Ryba, Patrick G. Santangelo and Nathan S. Lewis, "Chemical Studies of the Passivation of GaAs Surface Recombination Using Sulfides and Thiols", J. Appl. Phys., 1991, 70, 7449.

90. Amit Kumar, Patrick G. Santangelo and Nathan S. Lewis, "Electrolysis of Water at SrTiO3 Photoelectrodes: Distinguishing Between the Statistical and Stochastic Formalisms for Electron Transfer Processes in Fuel‑Forming Photoelectrochemical Systems", J. Phys. Chem., 1992, 96, 834. NSF

91. Reginald M. Penner and Nathan S. Lewis, "Invisible Electrodes with Amazing Powers," Review Article for Chemistry and Industry, 1991, 21, 788.

92. Bruce J. Tufts, Amit Kumar, Ashish Bansal and Nathan S. Lewis, "X‑ray Photoelectron Spectroscopic Studies of Interfacial Chemistry at n‑type Si/Liquid Junctions," J. Phys. Chem., 1992, 96, 4581. NSF

93. James P. Collman, Paul S. Wagenknecht and Nathan S. Lewis, "Hydride Transfer and Dihydrogen Elimination from Osmium and Ruthenium Metalloporphyrin Hydrides, Model Process for Hydrogenase Enzymes and the Hydrogen Electrode Reaction," J. Am. Chem. Soc., 1992, 114, 5665.NSF, GRI

94. James P. Collman, Paul S. Wagenknecht, James E. Hutchison, Nathan S. Lewis, Michel Angel Lopez, Roger Guilard, Maurice L'Her, Aksel A. Bothner‑By, and P. K. Mishra, "Dihydrogen Complexes of Metalloporphyrins: Characterization and Catalytic Hydrogen Oxidation Activity", J. Am. Chem. Soc., 1992, 114, 5654.NSF, GRI

95. Thomas H. Jozefiak, Eric J. Ginsburg, Chris B. Gorman, Robert H. Grubbs, and Nathan S. Lewis, "Voltammetric Characterization of Soluble Polyacetylene Derivatives Obtained from the Ring‑Opening Metathesis Polymerization (ROMP) of Substituted Cyclooctatetraenes", J. Am. Chem. Soc., 1993, 115, 4705.NSF

96. Ming X. Tan, Paul E. Laibinis, Sonbinh T. Nguyen, Janet M. Kesselman, Colby E. Stanton, and Nathan S. Lewis, "Principles and Applications of Semiconductor Photoelectrochemistry," in Kenneth D. Karlin, Ed., Prog. in Inorg. Chem., Wiley, New York, 1994, 41, 21. DOE, NSF

97. Amit Kumar, Wolf Christian A. Wilisch, and Nathan S. Lewis, "The Electrical Properties of Semiconductor/Metal, Semiconductor/Liquid and Semiconductor/Conducting Polymer Contacts", CRC Crit. Rev., 1993, 18, 327.DOE, NSF, NSF-Grubbs

98. Janet M. Kesselman, Amit Kumar, and Nathan S. Lewis, "Fundamental
Photochemistry of TiO2 and SrTiO3 Applied to Environmental Problems", The 1st International Conference of TiO2 Photocatalytic Purification and Treatment of Water and Air", Elsevier, London, Ontario, Canada, 1992. NSF, ARPA

99. Michael S. Freund and Nathan S. Lewis, "Irreversible Electrocatalytic Reduction VV to VIV Using 12-Phosphomolybdic Acid", Inorg. Chem., 1994, 33,1638.ARPA

100. Ashish Bansal, Ming X. Tan, Bruce J. Tufts, and Nathan S. Lewis, "Distinguishing Between Buried Semiconductor/Metal Contacts and Hybrid Semiconductor/Metal/Liquid Contacts at n-GaAs/KOH-Se-2-(aq) Junctions", J. Phys. Chem., 1993, 97, 7309.DOE

101. Michael S. Freund, Chris Karp and Nathan S. Lewis "Pyrrole-Phosphomolybdic Acid Solutions as a Means for Producing Conducting Poly(pyrrole) Coatings on Insulating Substrates", Current Separations, 1994, 13, 3.ARPA,Consortium

102. Michael S. Freund, Jay A. Labinger, Nathan S. Lewis, and John E. Bercaw, "Electrocatalytic Functionalization of Alkanes using Aqueous Platinum Salts", J. Molec. Catal., 1994, 87, L11.NAV, DOE, DARPA

103. C. N. Kenyon, Gail N. Ryba, and Nathan S. Lewis, "An Analysis of Time Resolved Photocurrent Transients at Semiconductor/Liquid Interfaces", J. Phys. Chem., 1993, 97, 12928.DOE

104. Gail N. Ryba, C. N. Kenyon, and Nathan S. Lewis, "The Effects of Metal Ion Chemisorption on GaAs Surface Recombination: Picosecond Luminescence Decay Measurements", J. Phys. Chem., 1993, 97, 13814. DOE, NSF

105. Colby E. Stanton, Sonbinh T. Nguyen, Janet M. Kesselman, Paul E. Laibinis, and Nathan S. Lewis, "Semiconductor", Encyclopedia of Inorganic Chemistry, J. Wiley & Sons, 1994, 16, 17:29:31.DOE, NSF

106. Ming X. Tan, Ashish Bansal, Iver Lauermann, Gary A. Shreve, and Nathan S. Lewis, "Semiconductor Interfaces", Encyclopedia of Inorganic Chemistry, J. Wiley & Sons, 1994, 09, 17:49:054.DOE

107. Paul E. Laibinis and Nathan S. Lewis, "Structure of Octadecanethiol Self-Assembled on the Silver(111) Surface: An Incommensurate Monolayer", Chemtracts: Inorg. Chem., 4, 49-51, 1992.

108. Geoffrey D. Smith and Nathan S. Lewis, "Fullerene Isomerism, Isolation of C2n-C78 and D3-C78", Chemtracts: Inorg. Chem., 1992, 4, 94.

109. James P. Collman, Paul S. Wagenknecht, Robert J. Hembre, Nathan S. Lewis, Meko C. Meeks, and Joan Selverstone Valentine, "Dihydrogen Complexes of Metalloporphyrins: Characterization and Hydrogen-Transfer Reactivity", Chemtracts: Inorg. Chem., 1991, 3, 44.

110. Nathan S. Lewis and Andrew G. Sykes, "Toward a Dinitrogen Electroreduction Catalyst: Characterization of a bis-ammine, a μ2-hydrazine, a μ2-diazene, and a Remarkably Stable μ2-dinitrogen Complex of a Ruthenium Cofacial Diporphyrin", Chemtracts: Inorg. Chem., 1991, 3, 264.

111. Ming X. Tan, Christopher N. Kenyon, and Nathan S. Lewis, "Experimental Measurements of Quasi-Fermi Levels at an Illuminated Semiconductor/Liquid Contact", J. Phys. Chem., 1994, 98, 4959. NSF

112. Gary A. Shreve and Nathan S. Lewis, "An Analytical Description of the Consequences of Abandoning Detailed Balance Principles for Thermalized Carriers in Semiconductor Photoelectrochemistry", J. Electrochem. Soc., 1995, 142, 112.

113. Paul E. Laibinis, Colby E. Stanton, and Nathan S. Lewis, "Measurement of Barrier Heights of Semiconductor/Liquid Junctions Using a Transconductance Method: Evidence for Inversion at n-Si/CH3OH-1,1'-Dimethylferrocene+/0 Junctions", J. Phys. Chem., 1994, 98, 8765. NSF

114. Colby E. Stanton, T. Randall Lee, Robert H. Grubbs, and Nathan S. Lewis, "Routes to Conjugated Polymers with Ferrocenes in their Backbones: Synthesis and Characterization of Poly(ferrocenylene divinylene) and Poly(ferrocenylene butenylene)", Macromolecules, 1995, 28, 8713. NSFGrubbs

115. Janet M. Kesselman, Michael R. Hoffmann, Gary A. Shreve, and Nathan S. Lewis, "Flux Matching Conditions at TiO2 Photoelectrodes: Is Interfacial Electron Transfer to O2 Rate-Limiting in the TiO2-Catalyzed Photochemical Degradation of Organics?", J. Phys. Chem., 1995, 98, 13385. NSF, ARPA

116. Michael S. Freund and Nathan S. Lewis, "A Chemically Diverse Conducting Polymer-Based "Electronic Nose", Proc. Natl. Acad. Sci. U.S.A., 1995, 92, 2652-2656. NSF-Grubbs

117. Patrick G. Santangelo and Nathan S. Lewis, "Cyclic Voltammetry of Semiconductor Photoelectrodes III: A Comparison of Experiment and Theory for n-Si and p-Si Electrodes", J. Phys. Chem B, 1998, 102, 4731-4738. Petroleum Research Foundation, DOE Office of Basic Energy Sciences. (DE-FG-03-88-ER13832LN)

118. Ming X. Tan, C. N. Kenyon, Wolf Christian A. Wilisch and Nathan S. Lewis,"Efficient Reductive or Oxidative Current Flow Across 100 μm Using a Si Photoelectrode Under High Level Injection", J. Electochem. Soc. 1995, 142, 4.NSF

119. Ashish Bansal, Xiuling Li, Iver Lauermann, and Nathan S. Lewis, " Alkylation of Si Surfaces Using a Two-Step Halogenation/Grignard Method", J. Am. Chem. Soc, 1996, 100, 7225. NSF (55045)

120. Arnel M. Fajardo, Christoph D. Karp, C. N. Kenyon, Katherine E. Pomykal, Gary A. Shreve, Ming X. Tan, and Nathan S. Lewis, "New Approaches to Solar Energy Conversion Using Si/Liquid Junctions", Sol. Energy Mat. and Solar Cells, 1995, 38, 279.NSF

121. N. S. Lewis, A.J. Nozik, R.J.D. Miller, S.F. Lindquist, J.E. Moser, A. Hagfeldt, K. Uosaki, T. J. Schaafsma, S. Licht, H. Tributsch, and F. Willig, "Comments on Photoelectrochemistry", Sol. Energy Mat. and Solar Cells, 1995, 38, 321.NSF (CHE-9221311), DOE Office of Basic Energy Sciences

122. Gary A. Shreve, Chris D. Karp, Katherine E. Pomykal, and Nathan S. Lewis, "Limits on the Corrosion Rate of Si Surfaces in Contact with CH3OH-Ferrocene+/0 and CH3OH-1,1'-Dimethylferrocene+/0 Solutions", J. Phys. Chem., 1995, 99, 5575. NSF

123. Katherine E. Pomykal, Arnel M. Fajardo, and Nathan S. Lewis, "Stability of n-Si/CH3OH Contacts as a Function of the Reorganization Energy of the Electron Donor", J. Phys. Chem. , 1995, 99, 8302.NSF

124. Nathan S. Lewis, "Artificial Photosynthesis", American Scientist , 1995, 534-541. DOE

125. Michael S. Freund and Nathan S. Lewis, "Growth of Thin, Processable Films of Polypyrrole Using Phosphomolybdate Clusters", Inorganica Chimica Acta, 1995, 240, 447. NSF-Grubbs, Consortium, DuPont, Eastman-Kodak

126. Marcel Sturzenegger and Nathan S. Lewis, "An X-Ray Photoelectron Spectroscopic and Chemical Reactivity Study of Routes to Functionalization of Etched InP Surfaces", J. Am. Chem. Soc. 1996, 118, 3045, 1996. DOE

127. Teresa L. Longin and Nathan S. Lewis, "Measurements of Solvent Effects on Local Barrier Heights in STM" Surface Science, 1998, submitted for publication. NSF, NIH

128. Ming X. Tan and Nathan S. Lewis, "Charge Transfer Rate Constants for the Reduction of Cobaltocenium at Accumulated n-Si Electrodes", Inorg. Chimi. Acta , 1996, 242, 311, 1996. NSF

129. Katherine E. Pomykal, Arnel M. Fajardo, and Nathan S. Lewis, "Theoretical and Experimental Upper Bounds on Interfacial Charge-Transfer Rate Constants Between Semiconducting Solids and Outer-Sphere Redox Couples", J. Phys. Chem., 1996, 100, 3652. NSF

130. Ming X. Tan, C.N. Kenyon, Olaf Kruger, and Nathan S. Lewis, "The Behavior of Si Photoelectrodes Under High Level Injection Conditions I. Steady-State Current-Voltage Properties and Quasi-Fermi Level Positions Under Illumination," J. Phys. Chem., 1997, 101, 15, 2830-2839. NSF (CHE-9634152)

131. Olaf Kruger, C.N. Kenyon, Ming X. Tan, and Nathan S. Lewis, "The Behavior of Si Photoelectrodes Under High Level Injection Conditions. II. Experimental Measurements and Digital Simulations of the Behavior of Quasi-Fermi Levels Under Illumination and Applied Bias," J. Phys. Chem., 1997, 101, 15, 2840-2849. NSF (CHE-9634152)

132. C. N. Kenyon, Ming X. Tan, Olaf Kruger, and Nathan S. Lewis, "The Behavior of Si Photoelectrodes Under High Level Injection Conditions III. Transient and Steady-State Measurements of the Quasi-Fermi Levels at Si/CH3OH Contacts," Journal of Physical Chemistry, 1997, 101, 15, 2850-2860.NSF (CHE-9634152)

133. Mark C. Lonergan, Erik J. Severin, Brett J. Doleman, Sara A. Beaber, Robert H. Grubbs, and Nathan S. Lewis, "Array-Based Sensing Using Chemically Sensitive, Carbon Black-Polymer Resistors", Chem. Mat., 1996, 8, 2298-2312. Consortium, Dupont, NASA, Eastman-Kodak, NSF-Grubbs (CHE-9202583)

134. Scot T. Martin, Janet M. Kesselman, David S. Park, Nathan S. Lewis, and Michael R. Hoffman "Surface Structures of 4-Chlorocatechol Adsorbed on Titanium Dioxide", Environmental Science and Technology , 1996, 30, 2535-2542. ARPA, ONR (NAV-5-HFMNN-0001492J1901)

135. Janet M. Kesselman, O. M. Weres, Nathan S. Lewis and Michael R. Hoffmann, "Electrochemical Production of Hydroxyl Radical at Polycrystalline n-Doped TiO2 Electrodes and Estimation of the Partitioning between Hydroxyl Radical and Direct Hole Oxidation Pathways", J. Phys. Chem. 1997, 101, 2637-2643. ARPA, ONR

136. Christopher L. Claypool, Francesco Faglioni, William A. Goddard III, Harry B. Gray, Nathan S. Lewis, and Rudolph A. Marcus, "Source of Image Contrast in STM Images of Functionalized Alkanes on Graphite: A Systematic Functional Group Approach", J. Phys. Chem., 1997, 101, 5978-5995.NSF (CHE-9634152 (NSL CHE-9522179) WAG (CHE-9610164) (ASC-9217368)

137. Nathan S. Lewis, Helmut Tributsch and Arthur J. Nozik, "Gerischer, Heinz - March 31, 1919 - September 14, 1994 - Biography", J. Phys. Chem. B, 1997, 101, 2391-2402.

138. Arnel M. Fajardo and Nathan S. Lewis, "Rate Constants for Charge Transfer Across Semiconductor-Liquid Interfaces", Science , 1996, 274, 969-972. NSF (CHE-9634152)

139. Nathan S. Lewis, "Photoelectrochemistry: Energy Conversion Using Semiconductor Electrodes", Interface ,1996, Fall, 28-31.

140. Nathan S. Lewis, "The Caltech Electronic Nose Project", Engineering and Science , 1996, LIX, 2-113.

141. William J. Royea, Olaf Krüger, and Nathan S. Lewis, "Frumkin Corrections for Heterogeneous Rate Constants at Semiconducting Electrodes", J. Electroanal. Chem., 1997, 438, 191-197. NSF (CHE-9634152), Kodak

142. Katherine E. Pomykal and Nathan S. Lewis, "Measurement of Interfacial Charge Transfer Rate Constants at n-type InP/CH3OH Junctions", J. Phys. Chem. B , 1997, 101, 2476-2484. DOE

143. Francesco Faglioni, Christopher L. Claypool, Nathan S. Lewis, and William A. Goddard III, "Theoretical Description of the STM Images of Alkanes and Substituted Alkanes Adsorbed on Graphite", J. Phys. Chem. , 1997, 101, 5996-6020. NSF (CHE-9634152)

144. Arnel M. Fajardo and Nathan S. Lewis, "Photoelectrochemical Energy Conversion Using Semiconductor/Liquid Junctions", The Spectrum , 1997, 10, 1-6. DOE Office of Basic Energy Sciences, NSF

145. Janet M. Kesselman, Nathan S. Lewis, and Michael R. Hoffman, "Photoelectrochemical Degradation of 4-Chlorocatechol at TiO2 Electrodes: Comparison Between Sorption and Photoreactivity",Environmental Sci. Tech. , 1997, 31, 2298-2302. ARPA and ONR (NAV-5-HFMNN0001492J1901)

146. Brett J. Doleman, Robert D. Sanner, Erik J. Severin, Robert H. Grubbs, and Nathan S. Lewis, "Use of Compatible Polymer Blends to Fabricate Arrays of Carbon Black-Polymer Composite Vapor Detectors", Anal. Chem., 1998, 70, 2560-2564. NASA, ARO (DAAH04-96-1-0048 & DAAG55-97-1-0187, DARPA, NSERC Canada, LLNL.

147. Arnel M. Fajardo and Nathan S. Lewis, " Free-Energy Dependence of Electron-Transfer Rate Constants at Si/Liquid Interfaces ", J. Phys. Chem. B, 1997, 101, 11136-11151. NSF (CHE-9634152), Eastman-Kodak

148. Brett J. Doleman, Mark C. Lonergan, Erik J. Severin, Thomas P. Vaid, and Nathan S. Lewis, "Quantitative Study of the Resolving Power of Arrays of Carbon Black-Polymer Composites in Various Vapor-Sensing Tasks", Anal. Chem., 1998, 70, 4177-4190. NSF (CHE-9202583), NSERC-Canada, A.A. Noyes Fellowship, Consortium, Dupont, Eastman-Kodak, NASA

149. William J. Royea, Arnel M. Fajardo, and Nathan S. Lewis, "A Fermi Golden Rule Approach to Evaluating Outer-Sphere Electron-Transfer Rate Constants at Semiconductor/Liquid Interfaces", J. Phys Chem. B, 1997, 101, 11152-11159.DOE Office of Basic Energy Sciences

150. Samir J. Anz, Arnel M. Fajardo, William J. Royea, and Nathan S. Lewis, "Unit 7c.1: Semiconductor Electrochemistry," Methods in Materials Research: Current Protocols, 2000, 7c.1.1-7c.1.34. DOE, NSF

151. Nathan S. Lewis, Mark C. Lonergan, Erik J. Severin, Brett J. Doleman and Robert H. Grubbs, "Array-Based Vapor Sensing Using Chemically Sensitive, Carbon Black-Polymer Resistors," Proc. SPIE Vol. 3079, 660-670, 1997. Detection and Remediation Technologies for Mines and Minelike Targets II, Abinash C. Dubey; Robert L. Barnard; Eds. ARO MURI (DAAH04-96-1-0048, Consortium, E. Eastman Kodak, NASA, NSF (CHE-9202583), NSERC of Canada and The O'Brien Foundation.

152. Samir Anz, Olaf Krüger, and Nathan Lewis, "Conditions Under Which Heterogeneous Charge-Transfer Rate Constants Can Be Extracted from Transient Photoluminescence Decay Data of Semiconductor/Liquid Contacts as Determined by Two-Dimensional Transport Modeling", J. Phys. Chem. B, 1998, 102, 5625-5640. DOE Office of Basic Energy Sciences (DE-FG-03-88ER13932)

153. Brett J. Doleman, Erik J. Severin, and Nathan S. Lewis, "Trends in Odor Intensity for Human and Electronic Noses: Relative Roles of Odorant Vapor Pressure vs. Molecularly Specific Odorant Binding", Proc. Nat'l. Acad. Sciences , 1998, 95, 5442-5447. NASA, ARO, NSERC-Canada, LLNL

154. Nathan S. Lewis, "Progress in Understanding Electron-Transfer Reactions at Semiconductor/Liquid Interfaces", J. Phys. Chem. B ,1998, 102, 4843-4855. NSF, DOE Office of Basic Energy Sciences

155. Ashish Bansal and Nathan S. Lewis, "Electrochemical Properties of (111)-Oriented n-Si Surfaces Derivatized with Covalently-Attached Alkyl Chains", J. Phys. Chem B, 1998, 102, 1067-1070. NSF (CHE-9634152), Eastman-Kodak

156. Ashish Bansal and Nathan S. Lewis, "Stabilization of Si Photoanodes in Aqueous Electrolytes Through Surface Alkylation", J. Phys. Chem. B, 1998, 102, 4058-4060.NSF (CHE-9634152), Eastman-Kodak

157. Brett J. Doleman, Erik J. Severin, Robert D. Sanner, and Nathan S. Lewis "Progress In The Development of an Electronic Nose Using Arrays of Chemically Sensitive, Carbon Black-Polymer Resistors," Proc. SPIE Vol. 3392, 390-400 , 1998, Detection and Remediation Technologies for Mines and Minelike Targets III, Abinash C. Dubey; James F. Harvey; J. Thomas Broach; Eds. ARO MURI (DAAH04-96-1-0048, Consortium, E. Eastman Kodak, NASA, NSF (CHE-9202583), NSERC of Canada and The O'Brien Foundation.

158. Mark C. Longin, Erik J. Severin, Brett J. Doleman, and Nathan S. Lewis, "Array-Based Sensing Using Chemically Sensitive, Carbon Black-Polymer Resistors", Proc. SPIE Vol. 3392, 390-400, 1998, Detection and Remediation Technologies for Mines and Minelike Targets III, Abinash C. Dubey; James F. Harvey; J. Thomas Broach; Eds. Dupont, Consortium, Kodak, NASA, NSF.

159. Erik Severin, Robert Sanner, Brett Doleman, and Nathan S. Lewis, "Differential Detection of Enantiomeric Resolution of Gaseous Analytes Using Carbon Black-Chiral Polymer Composite, Chemically Sensitive Resistors", Anal. Chem., 1998, 70, 1440-1443. DARPA, NASA, ARO.

160. Genevieve Sauvé, Marion E. Cass, Stephen J. Doig, Iver Lauermann, Katherine Pomykal, and Nathan S. Lewis, "High Quantum Yield Sensitization of Nanocrystalline Titanium Dioxide Photoelectrodes with cis-Dicyanobis-(4,4'-dicarboxy-2,2' - bipyridine)osmium(II) or Tris(4,4" -dicarboxy-2,2" -bipyridine)osmium(II) Complexes," J. Phys. Chem B, 2000, 104, 3488-3491. DOE (DE-FG07-96ER14725), FCAR

161. Samir J. Anz and Nathan S. Lewis, "Simulations of the Steady-State Current Density vs Potential Characteristics of Semiconducting Electrodes", J Phys Chem B, 1999, 103, 3908-3915. DOE (DE-FG-03-88ER13932)

162. Thomas P. Vaid and Nathan S. Lewis, "The Use of 'Electronic Nose' Sensor Responses to Predict the Inhibition Activity of Alcohols on the Cytochrome p-450 Catalyzed p-Hydroxylation of Aniline", Bioorganic & Medicinal Chem, 2000, 8, 795-805. ARO, MURI (DAAG55-98-1-0266)

163. Christopher L. Claypool, Francesco Faglioni, William A. Goddard III, and Nathan S. Lewis, "Tunneling Mechanism Implications from an STM Study of H3C(CH2)15HC=C=CH(CH2)15CH3 on Graphite and C14H29OH on MoS2", J Phys Chem, 1999, 103, 7077-7080. NSF (CHE-9634152)

164. Christopher L. Claypool, Francesco Faglioni, Adam J. Matzger, William A. Goddard III, and Nathan S. Lewis, "Effects of Molecular Geometry on the STM Image Contrast of Methyl- and Bromo-Substituted Alkanes and Alkanols on Graphite", J Phys Chem. B, 1999, 103, 9690 -9699. NSF (CHE-9634152)

165. Marcel Sturzenegger, N. Prokopuk, C.N. Kenyon, William J. Royea, and Nathan S. Lewis, "Reactions of Etched, Single Crystal (111)B-Oriented InP to Produce Functionalized Surfaces with Low Electrical Defect Densities" J. Phys. Chem. B, 1999, 103, 10838-10849.DOE,

166. Adam Matzger, Thomas P. Vaid, and Nathan S. Lewis, "Vapor Sensing with Arrays of Carbon Black-Polymer Composites", Proc. SPIE Vol. 3710, 1999, 315-320. Detection and Remediation Technologies for Mines and Minelike Targets IV, Abinash C. Dubey; James F. Harvey; J. Thomas Broach; Regina E. Dugan; Eds. NSF (CHE-9634152 NSL, CHE-95-22179 WAG and ASC-92-17368 WAG)

167. Nathan S. Lewis, "Rate Constants for Electron Transfer Across Semiconductor/Liquid Interfaces: Theory and Experiment", Zeits. für Phys. Chemie, 1999, 212, 161-172. NSF (CHE-9634152), DOE

168. Nathan S. Lewis, Michael Freund, and G.A. Hall, "Sensor Systems" Aerospace, 1997, 35, 46-47. NSF (CHE-9634152), DOE, Office of Basic Energy Sciences, Fundamental Interactions Branch.

169. Thomas Vaid, Erik Severin, Brett Doleman, and Nathan S. Lewis, "Sensing and Discrimination of Vapors by an Array of Conducting Carbon Black-Polymer Composites", SID 99, May 1999, International Symposium San Jose, CA.