化工与机械进展

论文通过原位合成法，以纳米多金属氧簇{Mo132}为模板，合成了复合材料{Mo132}@MIL-100(Fe)。经元素分析对比，{Mo132}的负载量为5%。实验结果表明：MIL-100(Fe)负载{Mo132}后，表现出更强的催化活性。良好的消解效果归因于{Mo132}在MIL-100(Fe)中的均匀分散，使其活性位点与2-CEES充分接触。鉴于{Mo132}@MIL-100(Fe)难溶于水，因此催化剂更利于回收利用，催化剂在循环使用5次后转化率＞70%，选择性＞99%。同时，结合产物分析，对{Mo132}@MIL-100(Fe)降解CEES的机理进行了推测。在H2O2的作用下，{Mo132}中的{MoV 2}被氧化成{MoVI 2}。然后，{MoVI 2}将2-CEES选择性氧化为无毒的2-CEESO，同时，{MoVI 2}还原为{MoV 2}，完成循环。

Kepletate POMs；催化；2-CEES

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