Z-scheme silver-based p-n junction of AgFeO2-modified Ag3VO4 with enhanced photocatalytic performance

Photocatalysis technology is considered an effective way to solve the problem of water pollution and energy shortage, and is hinged on the development of the photocatalyst. In this study, p-type semiconductor AgFeO2 and the n-type photocatalyst Ag3VO4 formed a p-n junction via a simple hydrothermal method. Compared with pure Ag3VO4, the 4 % AgFeO2-modified Ag3VO4 photocatalyst (AgVFe-4) exhibited the best photocatalytic activity: the photodegradation rate of RhB reached 95.1 % within 60 min and possessed good photostability under UV-visible light irradiation. The physical and chemical properties of AgVFe-4 indicated that the composite structure showed a larger special surface area, much lower intensity of photoluminescence, and higher photogenerated carriers separation efficiency. The p-type AgFeO2 and n-type Ag3VO4 could form the p-n junction structure. Based on the analysis of reactive agents, the h(+), center dot O-2(-) and center dot OH were the main active species during organic pollutions photodegradation, and the photocatalysis process followed the Z-scheme mechanism. Meanwhile, some silver element in the photocatalyst was reduced into Ag-0, which could act as the recombination center of the photogenerated carriers, further improving the photocatalytic performance. This work may arouse an increasing interest in designing more Z-scheme silver-based p-n junction heterojunction photocatalysts. (C) 2022 Published by Elsevier B.V.