1
Vayenas, Costas G.
2003
Table of Contents:
“...Nanoparticle Surfaces Studied by Electrochemical NMR -- Ab Initio Quantum-Chemical Calculations in Electrochemistry -- Macroscopic and Molecular Models of Adsorption Phenomena on Electrode Surfaces -- Electrochemical Promotion of Catalysis -- Mechanisms...”2003
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2
Bockris, John O'Mara
2002
Table of Contents:
“...Metal/Solution Interface: An Experimental Approach -- Quantum Mechanical Treatments in Electrode Kinetics -- Molecular Dynamic Simulations in Interfacial Electrochemistry -- Underpotential Deposition on Single-Crystal Metals -- Automated Methods...”2002
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3
Bockris, John O'Mara
1996
Table of Contents:
“... Electrochemistry at High-Tc Superconductor/Ionic Conductor Interfaces -- 4 Quantum Theory of Charge-Transfer Processes in Condensed Media -- 5 A Modern Approach to Surface Roughness Applied to Electrochemical Systems -- Cumulative Author Index -- Cumulative Title Index....”1996
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4
Conway, Brian E.
1992
Table of Contents:
“... of Intermediates -- 13. Quantum-Mechanical Formalisms of Electron Transfer Reactions at Electrode-Electrolyte Interfaces -- IV: Photoelectrochemistry -- 14. Novel Approaches for the Study of Surface Structure and Reactivity of Semiconductor Electrodes -- 15...”1992
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5
Bockris, John O'Mara
1983
Table of Contents:
“...1. Quantum Electrochemical Kinetics: Continuum Theory -- 1. Introduction -- 2. The Model -- 3. General Expressions for the Transition Probability -- 4. Transition Probability for Fixed Coordinates of the Ions and Reactants -- 5. Proton Transfer Reactions...”1983
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6
Bockris, John O'Mara
1972
Table of Contents:
“...1 Quantum Chemical Treatment of Adsorbed Species -- I. Introduction -- II. Surface States of Crystals -- III. Adsorbed Species -- References -- 2 Oscillatory Behavior in Electrochemical Systems -- I. Introduction -- II. Experimental Basis...”1972
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7
Bockris, John O'Mara
1971
Table of Contents:
“.... Introduction -- II. Gurney’s Quantum Mechanical Theory of Charge Transfer -- III. Developments of the Quantum Mechanical Theory -- IV. Absolute Reaction Rate Approach to Charge-Transfer Reactions -- V. Electrostatic Treatment of the Rate of Redox Reactions Hush’s...”1971
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