Antimicrobial properties of heterojunction BiSnSbO 6 -ZnO composites in wastewater treatment.

BiSnSbO ₆ -ZnO composite photocatalytic material with type II heterojunction structure was synthesized by a simple solid-phase sintering method, it was characterized by XRD, UV-vis, and PT methods. The photocatalytic antibacterial experiments were carried out under LED light irradiation. The experimental results showed that the photocatalytic antibacterial properties of BiSnSbO ₆ -ZnO composites against bacteria and fungi were significantly stronger than those of single BiSnSbO ₆ and ZnO. Under light conditions, the antibacterial efficiencies of 500 mg/L BiSnSbO ₆ -ZnO composites against E. coli, S. aureus, and P. aeruginosa reached 99.63%, 100%, and 100% for 6 h, 4 h, and 4 h, respectively. The best antibacterial concentration of BiSnSbO ₆ -ZnO composite against the eukaryotic microorganism Candida albicans was 250 mg/L, and the antibacterial efficiency reached the highest 63.8% at 6 h. Antibacterial experiments were carried out on domestic livestock and poultry wastewater, which showed that the BiSnSbO ₆ -ZnO composite photocatalytic material has broad-spectrum antibacterial activity against bacteria, and the antibacterial effect has species differences. Through the MTT experiment, it is proved that the prepared BiSnSbO ₆ -ZnO composite photocatalytic material has no toxicity at the experimental concentration. According to the free radical scavenging experiment and SEM observation of the morphological changes of the bacteria after light treatment, the prepared BiSnSbO6-ZnO composite photocatalytic material can generate active species OH, h ⁺ , and e ^- through light irradiation to achieve the purpose of sterilization, where e ^- play a major role, indicating that the BiSnSbO ₆ -ZnO composite photocatalytic material has broad application prospects in the actual antibacterial field.
(© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)