Electrocatalysis and the chlorine evolution reaction—II. Comparison of anode materials

The chlorine evolution reaction has been investigated on D.S.A. type electrodes in 5.13 M Nail solution. A large amount of potentiostatic current-potential and impedance-potential data has been collected over a wide potential and frequency range. The current-potential and impedance-potential data ha

Requisites for electrode materials to be suitable for technological applications are outlined and discussed. Oxides with metallic or quasi-metallic conductivity meet these requirements best. Most of these electrodes are prepared by thermal procedures. It is shown that the temperature of preparation

The chlorine evolution reaction was investigated on several oxide electrodes. The active site on the electrode surface is concluded to be the metal site, based on the dependence of the anodic current on pH of the electrolyte. The reaction mechanism can be determined by the d-electron configuration i

The anodic evolution of oxygen and chlorine on foreign metal-doped SnO, film electrodes were studied, in connection with their physical and chemical properties. In general, the anodic characteristics of noble metal-doped electrodes were much better than those of base metal-doped electrodes. The oxyg

Ahstrati-The oxidation of four compounds, hydraxine, the formate anion, formaldehyde and methanol, was investigated, using cyclic voltammetry techniques, at polycrystalline Au, Ir and Ru metal anodes in base (the behaviour at three other metals, Pt, Pd and Rh, in base was described in Part I of this

The evolution of chlorine bubbles on technologically important anodes has been studied using in situ microscopy and measurements of electrochemical noise. Images of RTO (ruthenium-titanium oxide) electrode surfaces evolving gas show that the surfaces display heterogeneous bubble detachment kinetics.