Electrolyte and Temperature Effects on the Electron Transfer Kinetics of Fe(CN)6–3/-4 at Boron-Doped Diamond Thin Film Electrodes

Abstract

Cyclic and linear sweep voltammetry were used to investigate the effects of the electrolyte composition and temperature on the electron-transfer kinetics of Fe(CN)6–3/–4 at well-characterized, boron-doped diamond thin-film electrodes. Highly conductive films were employed, which were first cleaned of any adventitious nondiamond carbon impurity by a two-step chemical-oxidation, and subsequently hydrogenated in hydrogen microwave plasma. The apparent heterogeneous electron-transfer rate constant, k°app, depended on the electrolyte concentration and the electrolyte cation type, increasing in order of Li+ < Na+ < K+ < Cs+. However, the dependence of koapp on the electrolyte cation was less than the dependence observed for other electrodes, like glassy carbon and gold. For example, koapp at the 1.0 M concentration was only a factor of 1.6 greater in KCl than in LiCl for diamond. This is less than the factor of 5–10 seen for other electrodes, like glassy carbon and gold. The transfer coefficient for the oxidati...