Characterization Of Surface Films On MmNi3.5Al0.8Co0.7

Negative electrodes for alkaline nickel-metal hydride batteries composed of MmNi3.5Al0.8Co0.7, where Mm is misch metal, have been characterized electrochermically and using x-ray photoelectron spectroscopy. The stability and rapid hydriding and dehydriding kinetics of the alloy in KOH are attibuted to a surface film. The protective surface film is shown to consist of an porous, outer hydrated layer and a dense, inner oxide layer. In addition, metallic nickel and cobalt are found throughout the film, and are presumed to form a conductive, percolative network that permits rapid electron transfer from the bulk to the solution, allowing rapid electrochemical formation of atomic hydrogen.