Catalytic degradation of diclofenac by ZnO-Co 3 O 4 : identification of major intermediates and degradation pathway

ZnO-Co O material was successfully synthesized by the co-precipitation method and used as a catalyst for the removal of diclofenac sodium (DCF). ZnO-Co O exhibited higher catalytic activity in the catalytic process compared to the photocatalytic processes. Under optimum conditions, the activation of peroxymonosulfate (PMS) by ZnO-Co O achieved approximately 99% removal of DCF, confirming the effective adsorption and activation of PMS. Quenching experiments indicated that the reactive oxygen species (ROS) responsible for the degradation of DCF by the ZnO-Co O /PMS system are singlet oxygen ( O ) and superoxide radicals (O ). The activation of PMS by ZnO-Co O was associated with the coexistence and interaction between Co(II) and Co(III), as well as the formation of oxygen vacancies (V ) in ZnO. Cobalt leaching was negligible, and the degradation rate remained constant after four cycles, indicating the excellent stability and reusability of the ZnO-Co₃O₄ catalyst. Additionally, eight degradation products of DCF were identified by LC-ESI-MS, and their toxicity was evaluated using ECOSAR software (version 2.2). In conclusion, the ZnO-Co O /PMS system is a promising catalytic process for the degradation of organic molecules.