标题: Ultra-facile fabrication of oxygen vacancy-laden catalyst for peroxymonosulfate activation to degrade organic pollutant in water: Performance and mechanism
作者: Chen, HX (Chen, Hanxiao); Han, ZY (Han, Zhaoyi); Cao, SY (Cao, Shiyi); Li, YH (Li, Yinghao); Kang, X (Kang, Xin); Cheng, C (Cheng, Cheng); Chen, XT (Chen, Xuantong); Xu, Y (Xu, Yin); Zhang, H (Zhang, Hui)
来源出版物: CHEMICAL ENGINEERING JOURNAL 卷: 453 文献号: 139660 DOI: 10.1016/j.cej.2022.139660 子辑: 1 出版年: FEB 1 2023
摘要: Oxygen vacancy (OV) defect engineering is high-profile for catalyst intensification, but remains in bench scale due to high cost and complicacy. Herein, for the scale-and performance-oriented defect engineering, a highly predigested mechanochemical paradigm was firstly conceived to convert spent Fe-based foodstuff deoxidizers (SFD) into mechanochemistry-derived catalysts (MSFD) via temporary grinding process. The physicochemical properties of MSFD were systematically characterized along with justifying dual-channel formation of OVs, which involved the actions of mechanical energy and reductive carbon components. With swift cycle of =Fe(II)/ =Fe(III) redox couple assisted by electron-rich OVs, MSFD could efficiently activate peroxymonosulfate (PMS) for contaminant elimination and bacteria inactivation in water. Hybrid mechanisms were further unveiled in which the radicals were predominant for decontamination, while the aqueous high-valent iron-oxo species played the peripheral role. The electron transfer between =Fe and PMS was mediated by the bridging OVs via donor-bridge-acceptor pathway, accounting for the absence of surface high-valent iron-oxo species generated through heterolytic O-O bond cleavage and atom transfer. This work furnishes a generalizable pattern for fabricating cost-effective oxygen-defective materials and profound outlooks into radical and nonradical regimes of persulfate activation.
作者关键词: Contaminants; Deoxidizer; Mechanochemistry; Oxygen vacancy; Peroxymonosulfate
地址: [Chen, Hanxiao; Han, Zhaoyi; Cao, Shiyi; Li, Yinghao; Kang, Xin; Cheng, Cheng; Chen, Xuantong; Zhang, Hui] Wuhan Univ, Sch Resource & Environm Sci, Dept Environm Sci & Engn, Wuhan 430079, Peoples R China.
[Xu, Yin] Hubei Univ, Sch Resources & Environm Sci, Wuhan 430062, Peoples R China.
通讯作者地址: Zhang, H (通讯作者),Wuhan Univ, Sch Resource & Environm Sci, Dept Environm Sci & Engn, Wuhan 430079, Peoples R China.
Xu, Y (通讯作者),Hubei Univ, Sch Resources & Environm Sci, Wuhan 430062, Peoples R China.
电子邮件地址: yxu@hubu.edu.cn; eeng@whu.edu.cn
影响因子:16.744
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