| 1 - 3 |
Electrochemical Conversion of Nitrate to Ammonia in Water Using Cobalt-Dim as Catalyst
Yang XN, Zhou DL, Rusling JF |
| 5 - 12 |
Electrochemical Quartz-Crystal Microbalance Study of Copper Adatoms on Gold Electrodes .2. Further Discussion on the Specific Adsorption of Anions from Solutions of Perchloric and Sulfuric-Acid
Uchida H, Ikeda N, Watanabe M |
| 13 - 17 |
The Anodic Behavior of Niobium and the Structure of Its Complexes in Carbamide Plus Chloride Melts
Volkov SV, Tumanova NK, Babenkov EA, Bandur VA, Buryak NI |
| 19 - 24 |
SERS Studies on Electrode/Electrolyte Interfacial Water .1. Ion Effects in the Negative Potential Region
Zou SZ, Chen YX, Mao BW, Ren B, Tian ZQ |
| 25 - 34 |
Homogeneous and Heterogeneous Catalytic Redox Processes - Solution and Solid-State Voltammetry of Lead Complexes at Carbon Electrodes
Marken F, Leslie WM, Compton RG, Moloney MG, Sanders E, Davies SG, Bull SD |
| 35 - 42 |
Reactivity of Oxidized Oligothiophenes Substituted with Methoxy and Thioalkyl Groups
Tabakovic I, Maki T, Miller LL |
| 43 - 48 |
Electrocatalyst for Nonenzymatic Oxidation of Glucose in Neutral Saline Solutions
Gorski W, Kennedy RT |
| 49 - 59 |
Electrochemical, in-Situ Spectrocyclic Voltammetric and Electrochromic Studies of Phenosafranine in Nafion((R)) Film
John SA, Ramaraj R |
| 61 - 67 |
3-Probe Voltammetric Characterization of Octadecanethiol Self-Assembled Monolayer Integrity on Gold Electrodes
Krysinski P, Brzostowskasmolska M |
| 69 - 74 |
Study of Ion Transfer Across Phospholipid Monolayers Adsorbed at Micropipette Ities
Kontturi AK, Kontturi K, Murtomaki L, Quinn B, Cunnane VJ |
| 75 - 92 |
Effects of Supporting Electrolyte on the Mass-Transfer Limited Current for Coupled Chemical-Electrochemical Reactions
Hicks MT, Fedkiw PS |
| 93 - 99 |
Electrochemical Properties of Bilayers of Conducting Polymers - Polypyrrole with Poly(4-Styrene-Sulfonate) Ions Poly(N-Methylpyrrole) - Studies of the Permeability of the Outer-Layer Towards Cations
Wojda A, Maksymiuk K |
| 101 - 111 |
Optimization of Preparation of Poly(3-Methylthiophene)-Modified Pt Microelectrodes for Detection of Catecholamines
Zhang H, Lunsford SK, Marawi I, Rubinson JF, Mark HB |
| 113 - 119 |
Study of Non-Faradaic 2D Phase-Transitions by Use of Cyclic Voltammetry and Capacitance-Potential Curves
Prieto I, Martin MT, Munoz E, Ruiz JJ, Camacho L |
| 121 - 139 |
Cyclic Voltammetry for the Transfer of Multiple Charged Ions at Large Ities - General Computational Methodology and Application to Simple and Facilitated Ion Transfer-Reactions
Reymond F, Brevet PF, Carrupt PA, Girault H |
| 141 - 151 |
In-Situ Determination of the Real Area Factor in H-2 Evolution Electrocatalysis at Porous Ni-Fe Composite Electrodes
Simpraga R, Tremiliosi G, Qian SY, Conway BE |
| 153 - 157 |
The Scanning Microscope for Semiconductor Characterization - Photocurrent, Photovoltage and Electrolyte Electroreflectance Imaging at the N-Mose2/I- Interface
Chaparro AM, Salvador P, Mir A |
| 159 - 164 |
Ion Transfer of Tetraalkylammonium Cations at an Interface Between Frozen Aqueous-Solution and 1,2-Dichloroethane
Rahman MA, Doe H |
| 165 - 171 |
Photoelectrochemical Reaction-Mechanisms - The Reduction of Benzophenone and 4-Halobenzophenones
Leslie WM, Compton RG, Silk T |
| 173 - 178 |
The Power of Reparametrization of Measurement Models in Electrochemical Impedance Spectroscopy
Zoltowski P |
| 179 - 183 |
Mechanism of Retarded Amalgam Formation and Electron-Transfer Reactions in Pure Formamide Solutions
Anastopoulos AG |
| 185 - 196 |
Electrochemical-Behavior of Oxocarbons on Single-Crystal Platinum-Electrodes .4. Rhodizonic Acid in 0.5-M Sulfuric-Acid Medium
Carbo R, Albalat R, Claret J, Orts JM, Rodes A |
| 197 - 205 |
Surface-Properties of Fractured and Polished Platinum Microelectrodes
Caruana DJ, Bannister JV |
| 207 - 212 |
Application of the Network Method to Simulation of a Square Scheme with Butler-Volmer Charge-Transfer
Garciahernandez M, Castilla J, Gonzalezfernandez CF, Horno J |
| 213 - 216 |
Evaluation of the Quantum Efficiency of the Photoanodic Reaction on Titanium-Dioxide in Aqueous-Solutions Containing Hydroxy Acid Salts by a Photothermal Method
Maeda Y, Koshi K, Kato T |
| 217 - 220 |
Voltammetric Method for Distinguishing Between Electrochemical Reactions Involving Solid or Dissolved Analytes Within Carbon-Paste Electrodes
Bachiller PE, Garcia ML, Barbado MD, Batanero PS |
