Oxygen evolution at nickel anodes in concentrated alkaline solution

Oxygen evolution reaction at Rt electrodes in alkaline solutions is characterized by two linear E-log i relationships. At low current densities (cd), the Tafel slope is close to 60 mV, whereas at bigb cd, it is close to 120 mV. The rates at bigb cd are strongly affected by the presence of an anodic

The anodic polarization curve of the oxygen electrode was examined on nickel in sulphate solutions of various pH values ranging from 0 to 14. It was found that oxygen evolution proceeds in accordance with two different reaction kinetics depending upon the pH value of the solution and the magnitude o

The anodic evolution of oxygen was investigated on the platinum oxide electrode, prepared by a thermal decomposition method, in alkaline solutions; the overvoltage data were reproducible on this electrode. On the basis of reliable mechanistic observations, the most probable path under Langmuir condi

On the basis of the proposed anodzc oxygen evolutzon (AOE) reactzon model at the nickel hydroxzde electrode (nhe) m the presence of an electrocatalytzcally actzve addztzve m the eiectrolyte, eg femc hydroxo complexes (FHC), the role of FHC adsorption zn the AOE electrocatalyszs has been revealed uan

Attstrae-The polarization curves of oxygen evolution and reduction at platinum electrode were obtained in diluted aqueous solutions of sulfuric and perchloric acids in the temperature range 2&325"C. The Tafel slopes of polarization curves of oxygen evolution are practically independent of the temper