O, S-Dual-Vacancy Defects Mediated Efficient Charge Separation In Znin2s4/Black Tio2 Heterojunction Hollow Spheres For Boosting Photocatalytic Hydrogen Production

Defective ZnIn2S4 nanosheets/mesoporous black TiO2 heterojunction hollow spheres (H-ZIS/b-TiO2) are prepared through hydrothermal and surface low-temperature hydrogenation strategies, which show broad-spectrum response and excellent charge separation efficiency. This H-ZIS/b-TiO2 flower-like heterojunction hollow spheres with a narrow band gap of similar to 1.88 eV expand the light response to visible light and show excellent photocatalytic hydrogen evolution rate (278 mu mol h(-1) 50 mg(-1)) under visible-light irradiation, which is 1.5 times as high as that of ZnIn2S4/black TiO2 heterojunction hollow spheres (ZIS/b-TiO2) (181 mu mol h(-1) 50 mg(-1)). The excellent photocatalytic performance is due to the formation of O, S dual vacancies in b-TiO2 and H-ZIS providing more active sites for photocatalytic reaction and improving the charge separation efficiency, heterojunctions promoting transport of photogenerated carriers, and the hollow structure increasing light utilization by reflecting light. The novel heterojunction hollow sphere with high performance has broad application prospects in the field of energy.