ZIF-8-derived nitrogen-doped porous carbon supported CuFeO2 for sulfamethoxazole removal: Performances, degradation pathways and mechanisms

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成果类型：

期刊论文

作者：

Zhu, Wenjun;Zhang, Shuai;Zuo, Xiaohua;Li, Xin;Deng, Xiangyi;...

通讯作者：

Wang, GH;Wang, XB

作者机构：

[Wang, GH; Zhu, Wenjun; Zuo, Xiaohua; Wang, Guanghui] Wuhan Univ Sci & Technol, Sch Chem & Chem Engn, Hubei Key Lab Coal Convers & New Carbon Mat, Wuhan 430081, Peoples R China.

[Deng, Xiangyi; Zhu, Wenjun; Wang, Xiaobo; Li, Xin] Hubei Polytech Univ, Coll Chem & Chem Engn, Hubei Key Lab Mine Environm Pollut Control & Remed, Huangshi 435003, Peoples R China.

[Ding, Deng; Wang, Chunlei; Zhang, Shuai; Wang, Xiaobo; Yan, JunTao] Wuhan Polytech Univ, Coll Chem & Environm Engn, Wuhan 430023, Peoples R China.

通讯机构：

[Wang, GH ] W

[Wang, XB ] H

Wuhan Univ Sci & Technol, Sch Chem & Chem Engn, Hubei Key Lab Coal Convers & New Carbon Mat, Wuhan 430081, Peoples R China.

Hubei Polytech Univ, Coll Chem & Chem Engn, Hubei Key Lab Mine Environm Pollut Control & Remed, Huangshi 435003, Peoples R China.

语种：

英文

关键词：

NC;Adsorption;Degradation;Peroxymonosulfate;CuFeO2

期刊：

Journal of Environmental Chemical Engineering

ISSN：

2213-3437

年：

2023

卷：

期：

页码：

109587

DOI：

10.1016/j.jece.2023.109587

基金类别：

Key Laboratory of Hubei Province for Coal Conversion and New Carbon Materials (Wuhan University of Science and Technology) [WKDM202104]; School-level Scientific Research Projects (Hubei Polytechnic University) [22xjz01q]; National Natural Science Foundation of China [51372077, 52102111]; special project of local scientific and technological development, "Research Center for Quality Testing and Risk Factor Control of Characteristic Vegetables in Southeast Hubei" [2019ZYYD046]; Unveils List System Science and Technology Project of Hubei Provincial Science and Technology Department [2021BEC016]; Natural Science Foundation of Hubei Province [2021CFB218]

机构署名：

本校为其他机构

院系归属：

化学与环境工程学院

摘要：

The magnetic CuFeO2 anchored on nitrogen-doped porous carbon (CuFeO2/NC) hybrid catalysts were further synthesized via hydrothermal reaction without the addition of a chemical reductant. The systematic CuFeO2/NC with larger specific surface areas (SSAs) and abundant active sites exhibited strong adsorption ability and great catalytic performance towards activating peroxymonosulfate (PMS) for sulfamethoxazole (SMX) removal. It was noted that 18 mg/L SMX was completely removed after 40 min of pre-adsorption and 30 min of oxidative degradation in CuFeO2/NC and PMS system. The degradation rate con...

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ZIF-8-derived nitrogen-doped porous carbon supported CuFeO2 for sulfamethoxazole removal: Performances, degradation pathways and mechanisms

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