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Constructing a tunable defect structure in TiO₂ for photocatalytic nitrogen fixation

Zhang, Guoqiang, Yang, Xun, He, Chuanxin, Zhang, Peixin, Mi, Hongwei
Journal of materials chemistry A 2019 v.8 no.1 pp. 334-341
adsorption, lighting, nitrogen, nitrogen fixation, oxygen, photocatalysis, photocatalysts, titanium dioxide
Photocatalytic systems capable of precisely regulating oxygen vacancy (OV) concentrations, which could help illuminate the effects of the OV concentration on N₂ fixation activity, are still scarce. Here, we demonstrate that excessive OVs in TiO₂, while increasing the adsorption activation capacity of N₂ molecules, exhibit disappointing activity due to a decrease in charge separation efficiency. With optimized OV concentration, TiO₂ can increase the charge separation efficiency 3-fold and show significant activation towards N₂ molecules. The normalized N₂ photofixation rate is 324.86 μmol h⁻¹ g⁻¹ (full spectrum) and the corresponding apparent quantum yield (AQY) under 365 nm illumination reaches 1.1%, which are relatively high levels compared to reports in the literature. The origin of this excellent activity is clearly attributable to the OV defect structures, which coordinate the charge separation efficiency and the dissociative adsorption capacity of N₂. This work establishes the relationship between OV concentration and activity, and helps to construct a highly efficient nitrogen-fixing photocatalyst by optimizing the OV concentration.