A Novel BiOCl/ZnS/ZnO Ternary Photocatalyst with Dual Type-II Scheme Heterostructure for Efficient Photocatalytic Degradation of Antibiotics

In this study, a novel ternary photocatalyst, composed of BiOCl, ZnS and ZnO, was successfully prepared for the first time via a mixed method followed by thermal treatment, which possessed a dual Type-II heterojunction structure. This composite exhibited substantially boosted photocatalytic degradation efficiency toward tetracycline (TC) under simulated sunlight. The microstructure, crystal morphology, charge transfer properties and optical absorption behavior of the composite were systematically characterized and analyzed. The results demonstrated that the dual type-II heterojunction formed among ZnS, ZnO and BiOCl effectively broadened the light absorption range and promoted the separation of photogenerated carriers, thereby significantly enhancing the photocatalytic activity. Active species trapping experiments and ESR tests confirmed that ⋅OH and ⋅O[Formula: see text] were the main active species in this photocatalytic system. The degradation efficiency of TC by this ternary catalyst under visible light reached as high as 95.8%, and it still maintained excellent stability after five consecutive cycles. Band structure analysis further revealed the charge separation mechanism in the dual type-II heterojunction. This novel dual type-II heterojunction is expected to provide new insights into the efficient degradation of pharmaceutical pollutants.