Abstract:The (Ni-Mo)-TiO₂ thin film was prepared by electrolytic co-deposition of Ni-Mo ally and TiO₂ particles from a solution in which TiO₂ nano particles (P25) were suspended by stirring. The surface morphology, phase structure and optical characteristics of the thin film were analyzed by scanning electron microscopy (SEM), X-ray diffractometry (XRD) and diffuse reflectance ultraviolet-visible spectroscopy (DRS), respectively. The photocatalytic properties were evaluated with Rhodamine B as a model compound. The effects of pH of the Rhodamine B aqueous solution, gaes bubbling through the solution, UV and visible light irradiation on the photocatalytic activity of (Ni-Mo)-TiO₂ thin film were investigated. And the photocatalytic reaction mechanism was presumed. The results show that the (Ni-Mo)-TiO₂ thin film consists of TiO₂ crystalline particles in the size of 50−100nm and Ni-Mo nano crystalline in solid solution. The (Ni-Mo)-TiO₂ film is photocatalytically more active than that of TiO₂/ITO. Under visible and UV light irradiation, the photocatalytic degradation rate of (Ni-Mo)-TiO₂ film is 2.0 times and 1.7 times as much as that of the TiO₂/ITO thin film, respectively. The increasing photocatalytic activity is mainly due to the heterojunction of (Ni-Mo)/TiO₂ and good electronic passage-way in the film, both of which can efficiently promote the separation of charges and accelerate the reaction of excited electrons with oxygen relatively to TiO₂/ITO film in photocatalytic degradation for Rhodamine B.

Key words: (Ni-Mo)-TiO₂ nanofilm; composite electroplating; photocatalysis; Rhodamine B