The oxygen evolution reaction on platinum, iridium, ruthenium and their alloys at 80°C in acid solutions

A&act -Kinetic parameters were determined for the oxygen evolution reaction on 50-50 atom percent alloys of Ru-Ir, Ru-Pt, and Ir-Pt and compared with results obtained using ruthenium, iridium, platinum, and RuO,,TiO, electrodes. The potentiostatic studies were made on oxide covered electrodes at 80°C in both 1.0 M H,SO, and 1.0 M CF,SOaH. Cyclic voltammetric studies showed that while these noble metals and alloys are about equally effective as electrocatalysts for the hydrogen evolution reaction, striking dilkrences in activity are found for the oxygen evolution reaction. The order of electrocatalytic activity towards oxygen evolution in H,S04 is Ru > Ru-Ir alloy _ RuOfliO, _ Ir >> Ir-Pt alloy F-Ru-Pt alloy > Pt. The type of acid wed had very little effect on the kinetic parameters. The lower electrocatalytic activities when platinum is present is probably due to the formation of a platinum oxide film. The dual barrier model is used to interpret the results for the electrodes containing platinum. The best electrocatalysts for oxygen evolution in acid solutions consist of noble metals which form oxide films (RuO,, IrO,) possessing metallic characteristics.