Nickel-Doped Excess Oxygen Defect Titanium Dioxide for Efficient Selective Photocatalytic Oxidation of Benzyl Alcohol

In this study, a novel composite Ni-OTiO2 was prepared by doping nickel and introducing excess oxygen defects in TiO2. The assynthesized Ni-OTiO2 particles were characterized by scanning electron microscopy, X-ray diffractino, transmission electron microscopy, Fourier transform infrared spectroscopy, differential reflectance spectroscopy, photoluminescence, photoelectrochemistry, and X-ray photoelectron spectroscopy. When employing Ni (1%)-OTiO2 as photocatalyst, the conversion of benzyl alcohol (BA) was up to 93% by 1 h irradiation derived from a 300 W xenon lamp, which is similar to 8-times higher than that using pure TiO2. Moreover, while being irradiated with the 300 W xenon lamp (using a filter,( )lambda > 420 nm), the Ni (1%)-OTiO2 conducted photocatalytic system can give 86% conversion of BA to benzaldehyde within 1 h. Specifically, during photocatalysis, a peroxo group and nickel ion act as the electron carrier, promoting the separation of the electron-hole pair. It is considered that the highly improved photocatalytic ability after modification of pure TiO2 is ascribable to the synergistic effect of excess oxygen defects and nickel doping in TiO2.