Voltammetric response of iron hydroxide layers precipitated on platinum electrodes in alkaline solution

thick oxidation layer on a platinum electrode has been grown in 1 N NaOH at 3 V us Ag/AgCI reference electrode. After transferring the Pt electrode into an ultrahigh vacuum chamber the surface layer was analysed by X-ray photoelectron spectroscopy. Pt4f,,,, Pt4f,,, and 01s electron binding energies

The electrochemical reduction of the thick oxide film formed on Pt electrode by severe Dreanodiition has been studied in LiOH, NaOH and KOH solutions of different concentrations &lOl -1.0 M) using a galvanostatic technique. An outermost monolayer oxide and an inner multilayer oxide of the thick oxid

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

The early stages of Ag electrodeposition on columnar structured Pt electrodes was investigated in acid solutions covering the underpotential deposition (upd) and overpotential deposition (opd) ranges. Results show a remarkable dependence of the Ag growth mode on the electrode roughness and potential

## Abdtrrcc -The voltammetric behaviour of hydrogen peroxide has been studied at the hmde in alkaline medium. It has been confirmed that the first of the two reduction peaks of hydrogen peroxide is catalytic in nature; t&es of ferric iron act under these conditions as a catalyst. In thoroughly pur