Abstract
The thermal stability of Ni overlayers electrochemically prepared on a polycrystalline vanadium (V) surface, was studied by means of X-ray and UV photoelectron spectroscopies (XPS, UPS). The results showed that upon cathodic polarization, a mixed Ni–Ni(OH) 2 adlayer is formed, while V surface becomes partially oxidized into vanadium oxide (V 2O x ). The applied potential during nickel electrodeposition is crucial for both Ni–Ni(OH) 2 composition and V 2O x film thickness. Annealing the Ni–Ni(OH) 2/V 2O x interface under UHV conditions leads to the gradual reduction of the films and the formation of a new Ni–V intermetallic phase. A solid state reaction accompanies the decomposition of nickel and vanadium oxides resulting in oxygen migration from the Ni adlayer to the V support. The electronic structure of Ni–V intermetallic phase formed after oxide decomposition is compared to previously reported results for Ni alloys and intermetallic compounds.
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