首页|Simultaneous Degradation,Dehalogenation,and Detoxification of Halogenated Antibiotics by Carbon Dioxide Radical Anions
Simultaneous Degradation,Dehalogenation,and Detoxification of Halogenated Antibiotics by Carbon Dioxide Radical Anions
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Despite the extensive application of advanced oxidation processes(AOPs)in water treatment,the effi-ciency of AOPs in eliminating various emerging contaminants such as halogenated antibiotics is con-strained by a number of factors.Halogen moieties exhibit strong resistance to oxidative radicals,affecting the dehalogenation and detoxification efficiencies.To address these limitations of AOPs,advanced reduction processes(ARPs)have been proposed.Herein,a novel nucleophilic reductant-namely,the carbon dioxide radical anion(CO·2-)-is introduced for the simultaneous degradation,dehalo-genation,and detoxification of florfenicol(FF),a typical halogenated antibiotic.The results demonstrate that FF is completely eliminated by CO2,with approximately 100%of Cl-and 46%of F-released after 120 min of treatment.Simultaneous detoxification is observed,which exhibits a linear response to the release of free inorganic halogen ions(R2=0.97,p<0.01).The formation of halogen-free products is the primary reason for the superior detoxification performance of this method,in comparison with conventional hydroxyl-radical-based AOPs.Products identification and density functional theory(DFT)calculations reveal the underlying dehalogenation mechanism,in which the chlorine moiety of FF is more susceptible than other moieties to nucleophilic attack by CO·2-.Moreover,CO·2--based ARPs exhibit superior dehalo-genation efficiencies(>75%)in degrading a series of halogenated antibiotics,including chloramphenicol(CAP),thiamphenicol(THA),diclofenac(DLF),triclosan(TCS),and ciprofloxacin(CIP).The system shows high tolerance to the pH of the solution and the presence of natural water constituents,and demonstrates an excellent degradation performance in actual groundwater,indicating the strong application potential of CO·2--based ARPs in real life.Overall,this study elucidates the feasibility of CO·2-for the simultaneous degradation,dehalogenation,and detoxification of halogenated antibiotics and provides a promising method for their regulation during water or wastewater treatment.
State Environmental Protection Key Laboratory of Environmental Risk Assessment and Control on Chemical Process,School of Resources and Environmental Engineering,East China University of Science and Technology,Shanghai 200237,China
Shanghai Institute of Pollution Control and Ecological Security,Shanghai 200092,China
State Key Laboratory of Pollution Control and Resource Reuse,College of Environmental Science and Engineering,Tongji University,Shanghai 200092,China
Shanghai Academy of Environmental Sciences,Shanghai 200233,China
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National Natural Science Foundation of ChinaNational Natural Science Foundation of ChinaNational Natural Science Foundation of ChinaScience and Technology Commission of Shanghai Municipality's Yangfan Special ProjectFundamental Research Funds for the Central Universities
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