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A novel sandwich structure ACF/CC@FeOCl as bifunctional cathode for efficient mineralization of trimethoprim in the heterogeneous electro-Fenton process over a wide pH range
Journal of Chemical Technology and Biotechnology ( IF 2.8 ) Pub Date : 2022-07-19 , DOI: 10.1002/jctb.7193 Yongjun Song 1 , Aimin Wang 1 , Songyu Ren 1 , Yanyu Zhang 1 , Zhenjun Wen 1 , Zhongguo Zhang 2
Journal of Chemical Technology and Biotechnology ( IF 2.8 ) Pub Date : 2022-07-19 , DOI: 10.1002/jctb.7193 Yongjun Song 1 , Aimin Wang 1 , Songyu Ren 1 , Yanyu Zhang 1 , Zhenjun Wen 1 , Zhongguo Zhang 2
Affiliation
It would be highly advantageous to develop a heterogeneous electro-Fenton (HEF) system in which the catalyst is fixed to recycle easily and the electrode itself can produce and activate H2O2 simultaneously. In this study, a new sandwich-like bifunctional cathode using carbon cloth (CC) loaded with FeOCl nanoparticles and activated carbon fiber (ACF) was fabricated and used in the HEF process for the degradation of antibiotic trimethoprim (TMP).
中文翻译:
一种新型夹层结构 ACF/CC@FeOCl 作为双功能阴极,用于在宽 pH 范围内的非均相电芬顿过程中有效矿化甲氧苄啶
开发一种非均相电芬顿(HEF)系统将是非常有利的,其中催化剂被固定以易于回收,并且电极本身可以同时产生和活化H 2 O 2。在这项研究中,制造了一种新型三明治状双功能阴极,使用负载有 FeOCl 纳米颗粒和活性碳纤维 (ACF) 的碳布 (CC),并将其用于降解抗生素甲氧苄啶 (TMP) 的 HEF 工艺。
更新日期:2022-07-19
中文翻译:
一种新型夹层结构 ACF/CC@FeOCl 作为双功能阴极,用于在宽 pH 范围内的非均相电芬顿过程中有效矿化甲氧苄啶
开发一种非均相电芬顿(HEF)系统将是非常有利的,其中催化剂被固定以易于回收,并且电极本身可以同时产生和活化H 2 O 2。在这项研究中,制造了一种新型三明治状双功能阴极,使用负载有 FeOCl 纳米颗粒和活性碳纤维 (ACF) 的碳布 (CC),并将其用于降解抗生素甲氧苄啶 (TMP) 的 HEF 工艺。
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