水体中抗生素与金属离子共存时,在某些条件下易产生络合形成抗生素-金属离子络合物,会对抗生素的去除特性产生显著影响.抗生素的官能团组成与数量、金属离子的电负性和环境的pH是影响两者络合的主要因素.本文综述了金属离子与抗生素之间的络合行为及络合对抗生素去除特性的影响,重点论述了金属离子络合强化抗生素去除效果及其影响机制.金属离子会通过阳离子架桥作用促进抗生素的吸附去除,金属离子的络合能力是架桥作用发挥的关键.金属离子与抗生素生成络合物,使得电子在络合物分子内传递,金属离子作为电子传递体氧化剂显著促进了抗生素的氧化降解.此外,金属离子还会通过捕获电子、空洞以及分离电子空洞、增加吸附量等方式促进抗生素的光降解.最后对金属离子在抗生素污水治理工艺中的应用前景进行了展望.
The coexistence of antibiotics and metal ions in solution could induce their complexion under certain circumstances, which may obviously affect the removal performance of antibiotics. The functional groups of antibiotics, species of metal ions and pH condition in the solution are three main factors influencing their interaction. The complexing behavior of different heavy metals exhibit different effect on the removal of antibiotics. This paper overviews the interactions of antibiotics, metal ions, as well as the influences on removal performance of antibiotics, with an emphasis on the discussion of complexion machanisims. Metal ions could increase adsorption efficiency of antibiotics by acting as cationic bridging, in which complexion capacity of metal ions plays an essential role. The complexion facilitates intramolecular electro transfer, which serves as electron mediator, and improves oxidation effectivness of antibiotics. Metal ions could also enhance the photodegradation of antibiotics by trapping electrons and holes and increasing adsorption capacity. Finally, the prospects of applying metal ions on antibiotics removal in the future research are also presented.
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