Study of hydrogen evolution on selected PTFE-bonded porous electrodes

Steady-state and potentioatatic transient H, evolution studies on Teflon bonded Pt black, platinired Pt and Pt foil electrodes in 5N H,SO,, 25°C showed that teflon bonded electrodes gave \* a higher performance than the other electrodes. The presence of the porous hydrophobic teflon network ensures

The mechanical and chemical stabxlity of Teflon \* bonded graphite electrodes operating in the oxygen evolution mode in 5N KOH was studied as a function of cd and time. The electrode starts to break up at 13 mA cm-' and on subsequent cathodic oxygen reduction performance is greatly reduced. Moreover

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

PIE soo13-4686(%)00272-1

## Abstract Nanocrystalline Ni‐Mo‐Fe alloy deposits were obtained by electrode‐position. The structures of the alloy deposits were analyzed by X‐ray diffraction (XRD) and X‐ray photoelectron spectroscopy (XPS). The XRD results of nanocrystalline Ni‐Mo‐Fe alloy deposit show that many diffraction lin