An electrochemical impedance study on the kinetics and mechanism of the hydrogen evolution reaction on nickel molybdenite electrodes

Ahstrae-Kinetics of the hydrogen evolution reaction (her) were measured at a rhodium electrode in a 1 M solution of KOH at various temperatures between 5 and 75°C. The rn-ts were conducted at a Rh wire electrode activated before every measurement by cycling in the range of potentials between -1.0 an

Abstrae-The oxygen evolution reaction was studied by electrochemical impedance spectroscopy in basic medium. The experimental spectra show two faradaic time constants. The appearance of these two time constants led us to propose a reaction mechanism with two intermediate iridium oxides. A theoretica

Electrodeposited N&Co-Zn alloy on a mild steel substrate have shown high electrochemical activity for the hydrogen evolution reaction. Such materials were investigated previously by EDX surface analysis and evaluated as Hz-evolving cathodes in alkaline solution through steady-state techniques and un

The degradation and rejuvenation of the oxygen evolution reaction (OER) on nickel electrodes in 1 mole dm-3 KOH solution were studied by electrochemical techniques, especially by an impedence method using the first Fourier transform (FFT) which is able to measure the frequency-dispersion for the tim

## Ahtract -The effect of electrode surface roughness on the kinetics of the hydrogen evolution reaction has been studied for mild steel and nickel cathodes in 10 M NaOH at 348 0 K. With the nickel cathodes, the 'T'afel slope was independent of whether the electrode surface was smooth or roughened