Energy band management of corn-like ZnO/Ag2S heterojunctions for efficient light harvesting and enhanced photocatalysis

Corn-like ZnO/Ag2S heterojunctions are designed and prepared by the solvothermal method and the subsequent covering process. They construct a type II core-shell heterojunction structure. This structure adjusts the relative positions of electron energy levels and generates a strong and broad absorption band, while emitting weak visible light. It also facilitates the transfer of photoexcited carriers through the interface and the confinement of the same by the different components of the nanostructure. Separation of electrons and holes makes them possible to drift to the surface of ZnO and Ag2S and to participate in the redox reactions. In addition, the presence of many defects produces many active sites on the surface of the lattice. So, the ZnO/Ag2S heterojunctions exhibit excellent photocatalytic properties in the first and second cycles of the photocatalytic process. It degrades 97.7% Rhodamine B only in 18 min. This study plays a significant role in promoting visible light catalysis, the efficiency of wastewater treatment technology, and the water environment on the earth.