Electrochromic behaviour of manganese dioxide electrodes in slightly alkaline solutions

## Manganese-dioxide electrodes prepared by electrodeposition on the graphite rods were discharged in the alkaline solution at constant current density. The potential/time curves can be fairly explained on the basis of diiusion of the reaction product into the solid electrode. The ratedetermining

A variety of manganese dioxide obtained during the reduction of alkafine KMnO, with organic substances is identified as a-MnO,. The potential of this oxide at various stages of electrochemical reduction in alkaline solution is presented and the structural changes occurring during the reaction are de

Current transients have been measured for silver electrodes discontinuously scratched under potential control while immersed in 1 M KOH solutions. Formation of two distinct types of oxidised monolayer occurs in different potential ranges below the Ag-Ag,O reversible potential. Formation of the first

Zinc dissolution and passivation in either arsenate or borate and a mixture of arsenate-borate solutions at pH 8.9 was studied by polarization curves and cyclic voltammetry. The arsenate anion produces an increase on zinc dissolution . Potential sweep rate, rotation speed, temperature, dissolved oxy

Al~traet--Two main views are found in the literature regarding the type of oxide formed on copper anodes in alkaline solutions. The one considers that copper oxidizes to Cu~O and CuO (or Cu(OH),) before oxygen evolution. Mftller is, however, of the opinion that a still higher oxide, Cu~O,, forms. Th