Metal Sulfide-Based Catalysts for Advanced Oxidation Processes: Tailoring Strategies and Mechanistic Insights for Organic Pollutant Removal
Fei-Qin Bian, Ghulam Hassan Abbasi, Hong Chen, Lin-Dong Liu
Abstract
Metal sulfides are abundant in nature. They also have excellent catalytic qualities and tunable electronic structures. These characteristics make them extremely attractive materials advanced oxidation processes (AOPs) in wastewater treatment. In this review, the relationship between structure and property in monometallic and bimetallic sulfides is examined in detail. The key point is to introduce their working mode - activating peroxymonosulfate (PMS), peroxydisulfate (PDS) and hydrogen peroxide to generate reactive oxygen species. The key methods for improving catalytic performance were elaborated in detail. This includes the rational design of bimetallic sulfides, introduction of sulfur vacancies, non-metal doping and in-situ regeneration techniques. These methods can adjust the electronic configuration, expose active sites and accelerate the metal redox cycling effectively. This greatly enhances the degradation efficiency and maintains the stability of the catalyst. This review also studies the environmental factors that affect catalytic performance. It points out future directions for developing metal sulfide-based catalysts. These directions are for their practical use in water remediation.