Enhanced oxidative degradation of tetracycline by visible light-promoted g-C3N4 modified Cu3(OH)4SO4/Cu7S4 composites under an air atmosphere†
Abstract
Herein, a simple solvothermal method was used to prepare a CuSx/g-C3N4 (CSG) heterojunction as an efficient oxygen activator containing sulfur vacancies (SVs). The as-prepared catalyst can activate oxygen to effectively degrade tetracycline (TC). The degradation rate of TC (20 mg L−1) reached 98.9% in 90 min over CSG (0.02 g L−1) under an air atmosphere, which maintained good performance within a wide pH range of 6–10. It was almost unaffected by any light source and water quality, indicating a highly efficient oxygen activator and good stability. Moreover, the trapping experiments and EPR results revealed that the main reactive oxygen species (ROSs) were singlet oxygen (1O2) and hydroxyl radicals (˙OH). CSG (4 : 1) enabled the activation of oxygen-produced ROS for removing TC even in the dark, which was in accordance with the EPR results. In addition, the CSG catalyst exhibited a good removal performance in practical wastewater treatment. Our study demonstrated that the CSG catalyst had the potential to remove organic pollutants from wastewater.