Preparation and characterization of nano spinels for electrocatalysis of oxygen evolution in alkaline solutions

Composite deposition a b s t r a c t Ti/PbO 2 þ nano-Co 3 O 4 composite electrode materials with different compositions were prepared by anodic composite electrodeposition on Ti substrate, with a SnO 2 eSb 2 O 5 intermediate layer in Pb 2þ plating solution containing suspended nano-Co 3 O 4 particle

Transition metal electroeatalysts for hydrogen evolution were prepared by thermal decomposition of solutions containing nickel OT cobalt and molybdenum, tungsten or vanadium on a metallic substrate and curing &he oxide coated substrate under an atmosphere of hydrogen at elevated temperatures. The mo

Two di4erent procedures were used to prepare spinel-type Ni x Al 1؊x Mn 2 O 4 (04x41) compounds to study the e4ects of solid state properties of mixed oxides on their electrocatalytic properties. The oxalic route, coprecipitation of metal oxalates dissolved in propanol or ethanol, and the propionic

The possibility of in situ activation of oxygen evolving anodes and hydrogen evolving cathodes in alkaline water electrolysers has been investigated. It is possible to activate anodes by depositing on them cobalt oxide or iron oxide or an even more active mixture of both. In all three cases the oxyg