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摘要
梳理了抗生素的污染来源,简要介绍了抗生素的危害,阐述了光催化高级氧化工艺的原理。归纳金属和非金属光催化剂对抗生素的降解效果,总结了铋基、银基、钛基和炭材料催化剂对抗生素的降解效率,还讨论了利用基体材料提高光催化剂可重复利用性的方法以及光催化剂的改性方式。
Abstract
The sources of antibiotics pollution are combed,the hazard brought by antibiotics is briefly introduced,and the principle of photocatalytic advanced oxidation process is expounded in a clear schematic diagram.The degradation effects of metal and non-metal photocatalysts on antibiotics are summed up,and the degradation efficiencies of bismuth-based,silver-based,titanium-based and carbon-based catalysts on antibiotics are summarized.In addition,the method using matrix materials to improve the reusability of photocatalysts is explored,and the modification methods for photocatalyst are also discussed.
关键词
催化剂载体
/
可重复利用性
/
抗生素
/
团聚
/
降解
Key words
catalyst carrier
/
reusability
/
antibiotics
/
agglomeration
/
degradation
Author summay
刘昊(1999-),男,硕士生;吴娜娜(1985-),女,博士,副教授,研究方向为环境生物地球化学及水体污染控制技术与理论研究,通讯联系人,1071561981@qq.com。
光催化降解抗生素及催化剂重复利用的研究进展[J].
, 2024, 44(3): 58-61 DOI:10.16606/j.cnki.issn0253-4320.2024.03.012
