Different activation methods in sulfate radical-based oxidation for organic pollutants degradation: Catalytic mechanism and toxicity assessment of degradation intermediates

With the continuous development of industrialization, a growing number of refractory organic pollutants are released into the environment. These contaminants could cause serious risks to the human health and wildlife, therefore their degradation and mineralization is very critical and urgent. Recently sulfate radical-based advanced oxidation technology has been widely applied to organic pollutants treatment due to its high efficiency and eco-friendly nature. This review comprehensively summarizes different methods for persulfate (PS) and per-oxymonosulfate (PMS) activation including ultraviolet light, ultrasonic, electrochemical, heat, radiation and alkali. The reactive oxygen species identification and mechanisms of PS/PMS activation by different approaches are discussed. In addition, this paper summarized the toxicity of degradation intermediates through bioassays and Ecological Structure Activity Relationships (ECOSAR) program prediction and the formation of toxic bromated disinfection byproducts (Br-DBPs) and carcinogenic bromate (BrO3-) in the presence of Br-. The detoxification and mineralization of target pollutants induced by different reactive oxygen species are also analyzed. Finally, perspectives of potential future research and applications on sulfate radical-based advanced oxidation technology in the treatment of organic pollutants are proposed. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

With the continuous development of industrialization, more refractory organic pollutants are released into the environment, posing serious risks to human health and wildlife. The sulfate radical-based advanced oxidation technology is widely applied in organic pollutants treatment due to its high efficiency and eco-friendly nature. Various methods for persulfate and per-oxymonosulfate activation, identification of reactive oxygen species, toxicity of degradation intermediates, and detoxification and mineralization of target pollutants induced by different reactive oxygen species are comprehensively summarized.