The mechanism of efficient photoreduction nitrate over anatase TiO2 in simulated sunlight

Abstract

Revealing the activation mechanism of nitrate (NO₃^-) reduction is crucially important to design high-efficiency photocatalysts for NO₃^- removal. In this work, the performance of photoreduction NO₃^- has been thoroughly studied over different crystalline phases TiO₂. Photodegradation rate of NO₃^- over anatase TiO₂ is found to be higher than that of rutile TiO₂ at simulated sunlight, which can achieve high NO₃^- conversion of 94% and 100% nitrogen selectivity (original concentration of 50 mg/L NO₃^--N) at reaction time of 4 h. With the aid of in situ Fourier Transform Infrared (FTIR) and density functional theory (DFT) calculations, the possible reaction paths of photoreduction NO₃^- over anatase TiO₂ was verified from theory and practice sides. NO₃^- was adsorbed on surface Ti site to form bridging nitrate (M - O)₂NO model. Then, monodentate nitrite (M-O-N-O) model was the dominant intermediate in the reduction process of NO₃^-. This study presents a new opinion of photoreduction NO₃^- reaction paths.

Keywords: Anatase TiO2; Nitrate; Photocatalysis; Reaction mechanism.