Overview of electrocatalytic treatment of antibiotic pollutants in wastewater

Catalysis Reviews Pub Date : 2021-08-19 DOI:10.1080/01614940.2021.1960009

H. Gu, W. Xie, Ai Du, Duo Pan, Zhanhu Guo

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引用次数: 21

Abstract

ABSTRACT Abuse of antibiotics in animal husbandry and medicine has led to severe environmental problems especially the risk of bacterial resistance. Different from common organic pollutants, antibiotics in wastewater could not be easily removed by biological treatment because of their poor biodegradability. Electrocatalysis including electrocatalytic oxidation and reduction has gained great attention for the removal of antibiotic contaminants in wastewater due to its advantages of high efficiency, simple operation, and thorough degradation. This review summarizes the common features and synthesis methods as well as research progress of electrode materials used in the electrocatalytic process for the treatment of antibiotics in the last five years. The removal mechanism and transformation pathways of antibiotics in the electrocatalytic oxidation and reduction processes are presented, especially to avoid the second pollution. Cost aspects in the electrocatalytic process are also discussed by considering practical applications and comparison with adsorption and photocatalysis process. Finally, several developing directions of electrocatalysis in the antibiotic wastewater treatment are proposed as a guidance for further research. Graphical Abstract

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电催化处理废水中抗生素污染物的研究进展

畜牧业和医药中抗生素的滥用已经造成了严重的环境问题，尤其是细菌耐药性的风险。与常见的有机污染物不同，废水中的抗生素具有较差的生物可降解性，难以通过生物处理去除。电催化包括电催化氧化和电催化还原因其高效、操作简单、降解彻底等优点，在去除废水中抗生素污染物方面受到广泛关注。本文综述了近五年来用于抗生素电催化治疗的电极材料的共同特点、合成方法以及研究进展。介绍了电催化氧化还原过程中抗生素的去除机理和转化途径，特别是避免了二次污染。结合实际应用，并与吸附、光催化工艺进行比较，讨论了电催化工艺的成本问题。最后，提出了电催化在抗生素废水处理中的几个发展方向，为进一步研究提供指导。图形抽象

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Catalysis Reviews

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