Antibiotic pollution is mainly caused by aquaculture wastewater and pharmaceuticals, which are frequently used by humans. Due to limited treatment efficiency or improper selection of treatment methods, these antibiotic residues may be very harmful in human drinking water and aquatic environments. The EAOPs coupling membrane technology (EAOPs-membrane) can play their own advantages, which can significantly improve the degradation efficiency and alleviate membrane pollution (electrochemical manners). In this context, this review mainly collecting researches and information on EAOPs-membrane treatment of antibiotic pollution published between 2012 and 2020. Discussed the different combinations of these two technologies, the mechanism of them in the system to improve the processing efficiency, prolong the working time, and stabilize the system structure. Mainly due to the synergistic effect of electrochemical behavior such as electric repulsion and in-situ oxidation, the membrane fouling in the system is alleviated. In this review it was summarized that the selection of different membrane electrode materials and their modifications. The paper also elaborates the existing challenges facing the EAOPs-membrane methods for antibiotic pollution treatment, and their prospects.

抗生素污染主要是由人类经常使用的水产养殖废水和药品引起的。由于治疗效率有限或治疗方法选择不当，这些抗生素残留物在人类饮用水和水生环境中可能非常有害。EAOPs偶联膜技术（EAOPs膜）可以发挥自己的优势，可以显着提高降解效率并减轻膜污染（电化学方式）。在此背景下，本综述主要收集2012年至2020年发表的有关EAOPs膜处理抗生素污染的研究和信息。讨论了这两种技术的不同组合，它们在系统中的作用机理，以提高处理效率，延长工作时间时间，并稳定系统结构。主要是由于电化学行为的协同效应，例如电排斥和原位氧化，减少了系统中的膜污染。在这篇综述中，总结了不同膜电极材料的选择及其修饰。本文还详细阐述了用于抗生素污染处理的EAOPs膜方法面临的挑战及其前景。