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固相法绿色制备Fe-N-C单原子催化剂及其活化过一硫酸盐连续降解酸性橙7

何泽辉谭嘉鑫张颂澜霍嘉桁李木夏冬生

应用化学2026，Vol.43Issue(4)：521-534,14.

应用化学2026，Vol.43Issue(4)：521-534,14.DOI:10.19894/j.issn.1000-0518.250351

固相法绿色制备Fe-N-C单原子催化剂及其活化过一硫酸盐连续降解酸性橙7

Green Synthesis of Fe-N-C Single-Atom Catalysts via Solid-Phase Method and Their Application in Continuous Degradation of Acid Orange 7 Through Peroxymonosulfate Activation

何泽辉 ¹谭嘉鑫 ¹张颂澜 ¹霍嘉桁 ¹李木 ²夏冬生¹

作者信息

1. 佛山大学材料与能源学院,佛山 528225
2. 西南交通大学环境科学与工程学院,成都 611756
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摘要

Abstract

The advanced oxidation process based on peroxymonosulfate(PMS)activation by Fe-N-C single-atom catalysts has garnered wide attention in the field of wastewater treatment.However,two challenges remain to be addressed for its practical engineering application:firstly,the green synthesis of highly active Fe-N-C catalysts,and secondly,the performance evaluation of the Fe-N-C/PMS system for continuous pollutant treatment.Using 2-methylimidazole and zinc/iron oxides as raw materials,a solvent-free green synthesis of Fe-N-C single-atom catalysts was achieved through solid-phase reaction and high-temperature thermal treatment.Furthermore,a conceptual setup for continuous wastewater treatment was designed,employing cotton-supported catalysts as a fixed-bed for PMS activation,achieving nearly 100％removal efficiency in the continuous degradation of acid orange 7(AO7)over 280 h.Structural analysis revealed that the single-atom Fe in the synthesized Fe-N-C catalyst coordinates with either pyrrolic or pyridinic N to form Fe-N4 moieties.Studies indicate that these moieties serve as the primary catalytic sites for PMS activation and works synergistically with adjacent micropores and N-Cx sites to degrade AO7.Quenching experiments demonstrated that singlet oxygen(1O2)is the dominant reactive oxygen species responsible for AO7 degradation.The experimental results on AO7 degradation indicate that the Fe-N-C/PMS system has a broad pH application range(3.0～11.0)and exhibits excellent catalytic degradation performance for AO7 in different water qualities(ultrapure water,tap water,Foshan Qiandeng Lake water).Furthermore,common anions in water bodies(Cl-、SO42-、HCO3-,etc.)have minimal impact on the removal efficiency of AO7 by this system.These results provide valuable insights for further research on the engineering application of Fe-N-C and other transition metal single-atom catalysts(TM-N-C)in advanced oxidation processes.

关键词

单原子催化剂/过一硫酸盐/高级氧化技术/酸性橙7/废水处理

Key words

Single-atom catalyst/Peroxymonosulphate/Advanced oxidation process/Acid orange 7/Wastewater treatment

分类

化学化工

引用本文复制引用

何泽辉,谭嘉鑫,张颂澜,霍嘉桁,李木,夏冬生..固相法绿色制备Fe-N-C单原子催化剂及其活化过一硫酸盐连续降解酸性橙7[J].应用化学,2026,43(4):521-534,14.

基金项目

广东省基础与应用基础研究基金(No.2023A1515140002)资助 Supported by Guangdong Basic and Applied Basic Research Foundation(No.2023A1515140002) （No.2023A1515140002）

应用化学

ISSN：1000-0518

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