Abstract

The electrocatalytic reduction of protons in 1.0 M perchloric acid at glassy carbon electrodes anodically modified with a Co(II)/Pt(II) porphyrin show shifts of 400 mV versus Ag/AgCl when compared to the same electrodes which have not been anodically modified. Anodic cycling of glassy carbon electrodes coated with the Co(II)/Pt(II) porphyrin in this study form stable electroactive films capable of improving both electroreduction of protons to hydrogen and oxygen to both peroxide and water. Electrooxidation of glassy carbon electrodes coated with the free base porphyrin show no improvement in catalytic ability for the reduction of protons in acidic solution or the reduction of molecular oxygen in basic solution. Glassy carbon electrodes coated with the Co(II)/Pt(II) porphyrin indicate, by rotating disk electrochemistry, that the electrocatalysis of oxygen is a two electron process leading to the formation of hydrogen peroxide. Koutecky–Levich plots of the data obtained from the reduction of oxygen at electrode surfaces coated with the Co(II)/Pt(II) porphyrin after oxidation of the surface indicate that 25% of the oxygen is reduced by four electrons directly to water while 75% of the oxygen is reduced by two electrons to hydrogen peroxide.

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