Kinetics and mechanism of the oxygen evolution reaction at oxide-coated Co-Ni amorphous alloy electrodes
暂无分享,去创建一个
[1] A. Arvia,et al. Electroformation of electrocatalytically active hydrous oxide layers on a Co-Ni amorphous alloy under pulsating electrolysis , 1993 .
[2] K. Lian,et al. Electrochemical and surface characterization of electrocatalytically active amorphous NiCo alloys , 1992 .
[3] K. Lian,et al. Properties of Hydrous Oxide Films Formed at Amorphous Ni‐Co Alloys , 1991 .
[4] J. R. Vilche,et al. Electrochemical impedance spectroscopy of oxygen and hydrogen evolution on amorphous alloys in 1 M KOH , 1991 .
[5] A. Visintín,et al. Preparation and modification of hydrous thick cobalt oxide layers: Voltammetric characteristics of rough Co3O4-spinel-type electrodes , 1991 .
[6] S. Jiang,et al. Reactive Deposition of Cobalt Electrodes IV . Alkaline Water Electrolysis , 1991 .
[7] M. R. G. Chialvo,et al. Development of thick oxide layers on nickel-cobalt (40%/60%) alloy by fast square wave potential perturbations , 1991 .
[8] K. Lian,et al. ELECTROCATALYTIC BEHAVIOUR OF NI-BASE AMORPHOUS ALLOYS , 1991 .
[9] B. Conway,et al. Electroactive intermediate states in anodic O2 evolution at NiMo-containing glassy metals , 1990 .
[10] J. L. Gautier,et al. Thin films of Co3O4 and NiCo2O4 obtained by the method of chemical spray pyrolysis for electrocatalysis III. The electrocatalysis of oxygen evolution , 1990 .
[11] M. R. G. Chialvo,et al. Oxygen evolution reaction on electrochemically generated thick cobalt oxide films , 1990 .
[12] A. Baiker. Metallic glasses in heterogeneous catalysis , 1990 .
[13] A. Visintín,et al. The development of a cobalt oxide spinel structure overlayer on cobalt electrodes: A modified electrode surface of electrocatalytic interest , 1989 .
[14] K. Jüttner,et al. Characterization of the electrocatalytic properties of amorphous metals for oxygen and hydrogen evolution by impedance measurements , 1988 .
[15] J. F. Koenig,et al. Films minces de Co3O4 et NiCo2O4 obtenus par nébulisation réactive (spray) pour l'électrocatalyse. I. Préparation et analyses physiques , 1988 .
[16] M. R. G. Chialvo,et al. Oxygen evolution reaction on thick hydrous nickel oxide electrodes , 1988 .
[17] G. Kreysa,et al. Electrocatalysis by amorphous metals of hydrogen and oxygen evolution in alkaline solution , 1986 .
[18] S. Trasatti. Electrocatalysis in the anodic evolution of oxygen and chlorine , 1984 .
[19] H. Wendt,et al. Electrocatalytic and thermal activation of anodic oxygen- and cathodic hydrogen-evolution in alkaline water electrolysis , 1983 .
[20] S. Srinivasan,et al. Electrode kinetics of the oxygen evolution reaction at NiCo2O4 from 30% KOH.: Dependence on temperature☆ , 1982 .
[21] A. Tseung,et al. A Mechanistic Study of Oxygen Evolution on NiCo2 O 4 II . Electrochemical Kinetics , 1982 .
[22] S. Srinivasan,et al. Ruthenium‐Based Mixed Oxides as Electrocatalysts for Oxygen Evolution in Acid Electrolytes , 1981 .
[23] E. O'Sullivan,et al. Oxygen gas evolution on hydrous oxides — An example of three-dimensional electrocatalysis? , 1981 .
[24] A. Tseung,et al. A Potentiostatic Pulse Study of Oxygen Evolution on Teflon‐Bonded Nickel‐Cobalt Oxide Electrodes , 1979 .
[25] C. Iwakura,et al. The anodic evolution of oxygen on platinum oxide electrode in alkaline solutions , 1976 .
[26] G. Kegeles,et al. Thermodynamics of Concentrated Aqueous Solutions of Sodium Hydroxide1,2 , 1940 .
[27] H. S. Harned,et al. The Thermodynamics of Aqueous Sodium Hydroxide Solutions from Electromotive Force Measurements1 , 1933 .