Solid-Liquid Electrochemical Interfaces

Abreu, J. B., 274. Batina, N., 171. Borup, R. L., 283. Brisard, Gessie M., 142. Brolo, A. G.,310. Fairbrother, D. Howard, 106. Feliu, Juan M., 156. Fo...
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Downloaded by 80.82.77.83 on June 3, 2018 | https://pubs.acs.org Publication Date: February 28, 1997 | doi: 10.1021/bk-1997-0656.ix001

Author Index Abreu, J. B., 274 Batina, N . , 171 Borup, R. L., 283 Brisard, Gessie M . , 142 Brolo, A . G.,310 Fairbrother, D. Howard, 106 Feliu, Juan M . , 156 Forrer, P., 210 Furuya, Mikio, 61 Gomez, Roberto, 156 Gasteiger, Hubert Α., 87,142 Glosli, James N . , 13 Goodman, D. W.,71 Hara, Y . , 202 Hossner, L . R., 71 Irish, D. E.,310 Itaya, K., 171,274 Jerkiewicz, Gregory, 1,45,323 Johnston, H . S., 106 Kim, Y.-G., 171 Koinuma, Michio, 189 Kunitake, M . , 171 Lucas, C. Α., 87 Magari, Y., 297 Marcus, P., 236 Markovic', Nenad M . , 87,142 Matsue, T., 202 Matsumoto, Y., 245 Maurice, V., 236 Murrell, T. S.,71 Nakato, Y., 297 Nooney, M . G., 71 Ochi, H., 297 Ogaki, K., 171

Okawa, Y., 245 Orts, JoséM., 156 Philpott, Michael R., 13 Repphun, G.,210 Ross, Philip N . , Jr., 87,142 Sasahara, Α., 245 Sashikata, K., 274 Sauer, D. E., 283 Schmidt, E.,210 Sekine, Namiki, 189 Shiku, H., 202 Siegenthaler, H., 210 Somorjai, G. Α., 106 Sorenson, Τ. Α., 115 Soriaga, Manuel P., 274 Spohr, E., 31 Stickney, J. L., 115 Stuve, Ε. M . , 283 Sung, Y.-E., 126 Takeda, T., 202 Tanaka, K., 245 Temesghen, W. F., 274 Thomas, S., 126. Uchida, L, 202 Uosaki, Kohei, 189 Villiard, Francis, 323 Wan, L.-J., 171 Wieckowski, Andrzej, 126 Wilmer, Β. K., 115 Yae, S., 297 Yamada, T., 171 Ye, Shen, 189 Zenati, Entissar, 142 Zolfaghari, Alireza, 45

Affiliation Index Hokkaido University, 189 I B M Almaden Research Center, 13 Kanagawa Industrial Technology Res Institute, 61 Lawrence Livermore National Laboratory, 13

Osaka University, 297 Texas A & M University, 71,274 Tohoku University, 171,202,274 Universidad d'Alacant, 156 Universitàt Bern, 210 Universitat Ulm, 31

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Jerkiewicz et al.; Solid-Liquid Electrochemical Interfaces ACS Symposium Series; American Chemical Society: Washington, DC, 1997.

SOLID—LIQUID ELECTROCHEMICAL INTERFACES

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Université de Sherbrooke, 1,45,142,323 Université Pierre et Marie Curie, 236 University of California—Berkeley, 87,106,142 University of Georgia, 115

University of Illinois at UrbanaChampaign, 126 University of Tokyo, 245 University of Washington, 283 University of Waterloo, 310

Subject Index

Downloaded by 80.82.77.83 on June 3, 2018 | https://pubs.acs.org Publication Date: February 28, 1997 | doi: 10.1021/bk-1997-0656.ix001

A

Anion adsorption and charge transfer on single-crystal electrodes—Continued experimental procedure, 157-159 polycrystalline electrode activated by electrochemical cycling, 165,167 Pt(531) electrode, 167,168/ state of electrode surface using cyclic voltammetry, 164,165/ voltammetric profile, 158/160 Antigen-antibodies, use in glass surfaces, 202-209 Atomic force microscopy development, 7 micrometer-scale imaging of native oxide on silicon wafers, 61-69 See also Electrochemical atomic force microscopy Atomic layer epitaxy, 117 Atomic level studies of CdTe(100), electrochemical digital etching, 115-123 Auger electron spectrometers, 106 Auger electron spectroscopy bisulfate anion adsorption on Au(l 11), Pt(lll), and Rh(l 11) surfaces, 126-138 to monitor composition of acidified water surfaces, 106-114 underpotential deposition of lead on Cu(100) and C u ( l l l ) , 142-154 use for bisulfate anion adsorption, 127

Acidified water surfaces degree of surface sensitivity, 111 experimental description, 107-109 stratospheric significance, 107 sulfuric acid, 109-111 surface composition, 111-113 surface vs. bulk composition, 113-114 Adsorption H on N i ( l 10) surface, 245-246 iodide on single-crystal electrodes, 171 organic molecules on electrode surfaces, 172 Adsorption energy, effect on density, computer simulation of structure and dynamics of water near metal surfaces, 34-36 Adsorption-induced reconstruction, surface metal atom, 245 Adsorption isotherms, development, 4/,5 Alcohols, role in photooxidation reaction of water on n-Ti0 electrode, 297-308 Alloy single-crystal surface, thin anodic oxide overlayers, 236-244 Alloy surfaces, chemical reconstruction, 246-247 Alumina, growth kinetics of phosphate films, 83,84/ Anion(s), role in boundary layer at metalelectrolyte solution interface, 126-127 Anion adsorption and charge transfer on single-crystal electrodes Bimetallic surfaces advantages and disadvantages, 169 catalytic reaction of NO + H , anion coverages, 161,162/ 268/269-272 ball models for adlayer structures, 161,163/ characterization charge correction, 167,169 Pt-Rh(lOO) and Pt-Rh(l 10) surfaces, defects, influence on adsorption, 165,166/" 265-267,269 2

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Jerkiewicz et al.; Solid-Liquid Electrochemical Interfaces ACS Symposium Series; American Chemical Society: Washington, DC, 1997.