Single-Atom Cobalt Catalysts Encapsulating Cobalt Nanoparticles with Built-In Electric Field for Ultrafast and Lasting Peroxymonosulfate Activation

被引:5
作者
Zou, Haiyan [1 ]
Wang, Haitao [1 ]
Sun, Hongqi [2 ]
Sun, Wenshuang [1 ]
Luo, Shuangjiang [3 ]
Li, Tielong [1 ]
Duan, Xiaoguang [4 ]
Zhan, Sihui [1 ]
机构
[1] Nankai Univ, Coll Environm Sci & Engn, MOE Key Lab Pollut Proc & Environm Criteria, Tianjin Key Lab Environm Remediat & Pollut Control, Tianjin 300350, Peoples R China
[2] Univ Western Australia, Sch Mol Sci, Nedlands, WA 6009, Australia
[3] Chinese Acad Sci, Inst Proc Engn, Beijing 100190, Peoples R China
[4] Univ Adelaide, Sch Chem Engn, Adelaide, SA 5005, Australia
来源
ACS ES&T WATER | 2024年 / 4卷 / 06期
基金
中国国家自然科学基金;
关键词
single atom catalyst; built-in electric field; composites; peroxymonosulfate; electron transferpathway; BISPHENOL-A; DEGRADATION; BIOCHAR; MN; CO;
D O I
10.1021/acsestwater.3c00774
中图分类号
X [环境科学、安全科学];
学科分类号
08 ; 0830 ;
摘要
Cobalt single-atom catalysts (Co-SAs) are rising stars in persulfate chemistry for their well-defined coordination, reduced metal usage, and exceptional activity. However, the simultaneous formation of cobalt nanoparticles (Co-NPs) with Co-SAs raises questions about their complex interplay and synergy in catalysis. In this study, we synthesized Co-SAs-encapsulated Co-NPs (CoNP@NC/Co-SA) using the laser-induced carbonization strategy of high entropy synthesis technology. The results show that 93.23% of phenol can be removed in 15 min and 91.60% in 3 min in the CoNP@NC/Co-SA/PMS system. Simulation results showed that Co-NPs fine-tune the electronic structure of Co-SA sites, optimizing PMS adsorption and activation to generate confined reactive species. The surface-activated PMS-catalyst complex directly attacked adsorbed pollutants on the catalyst surface via an electron-transfer regime. CoNP@NC/Co-SA catalyzes PMS oxidation through a nonradical pathway with high selectivity toward target organics. The findings emphasize the synergistic effect of Co-SAs and Co-NPs in promoting Fenton-like catalysis, enlightening the rational design of advanced composite materials via synergistic molecular and interfacial engineering for fast and long-lasting catalytic oxidation. At the same time, this work provides insights into the electronic structure regulation of metal centers at the atomic level.
引用
收藏
页码:2433 / 2444
页数:12
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