首页|期刊导航|Green Energy & Environment|Structure-activity relationship in periodate activation by Fe-MOFs:Why MIL-101(Fe)outperforms other MIL-series in antibiotic degradation
Structure-activity relationship in periodate activation by Fe-MOFs:Why MIL-101(Fe)outperforms other MIL-series in antibiotic degradation
Ning Liu Jingwen Xu Yixuan Zhai Ziyi Zhang Yi Dang Yusong Cao Zhe Li Wenyuan Huang Xiaodong Zhang Liang Tang
Green Energy & Environment2026,Vol.11Issue(2):P.578-590,13.
Green Energy & Environment2026,Vol.11Issue(2):P.578-590,13.DOI:10.1016/j.gee.2025.10.006
Structure-activity relationship in periodate activation by Fe-MOFs:Why MIL-101(Fe)outperforms other MIL-series in antibiotic degradation
摘要
关键词
Periodate/Advanced oxidation processes/Fe-MOFs/Antibiotic degradation/Fe(Ⅲ)-Superoxide分类
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Ning Liu,Jingwen Xu,Yixuan Zhai,Ziyi Zhang,Yi Dang,Yusong Cao,Zhe Li,Wenyuan Huang,Xiaodong Zhang,Liang Tang..Structure-activity relationship in periodate activation by Fe-MOFs:Why MIL-101(Fe)outperforms other MIL-series in antibiotic degradation[J].Green Energy & Environment,2026,11(2):P.578-590,13.基金项目
National Natural Science Foundation of China(Nos.42177405,42377359,12075152) (Nos.42177405,42377359,12075152)
Energy Science and Technology discipline under the Shanghai Class IV Peak Disciplinary Development Program for the financial support.W.Y.Huang thanks the China Scholarship Council(CSC)for funding. (CSC)
