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The role of nitrogen and sulfur doping in the peroxymonosulfate activation of cobalt-immobilized Polygonatum kingianum dregs biochar

生物炭 硫黄 化学 氮气 无机化学 热解 有机化学
作者
Fali Hou,Jinli Zhai,Jiali Yan,Kaiying Yang,Wei Li,Min Li,Weichu Yu,Xiaoya Gao,Xingxin Yang
出处
期刊:Industrial Crops and Products [Elsevier BV]
卷期号:224: 120317-120317 被引量:9
标识
DOI:10.1016/j.indcrop.2024.120317
摘要

Biomass wastes from agriculture are very important sources to fabricate high-value materials for water purification. Herein, we encapsulated cobalt inside Polygonatum kingianum (PK) dregs biochar with no doping and the doping of N, S, and N-S to investigate the roles of Co/N/S in promoting the catalytic activity on activating peroxymonosulfate (PMS) to degrade emerging pollutant. Cobalt nanoparticles were evenly wrapped in the carbon matrix by N doping, leading to no apparent cobalt nanoparticles in Co@BC-N and presenting a poorer activity. Additionally, Co was converted to Co 9 S 8 (Co@BC-S) and Co 4 S 3 (Co@BC-N,S) by S doping and N-S co-doping, respectively. Particularly, both the experiments and DFT calculations revealed an outstanding synergistic effect between Co 4 S 3 and the N-S co-modified carbon matrix, which significantly raised the adsorption of PMS and activated it into non-radical ( 1 O 2 and electron transfer) and radical pathways (SO 4 •− , •OH, and O 2 •− ). The Co@BC-N,S/PMS system completely degraded carbamazepine (CBZ) within 20 min, with an apparent rate constant ( k app ) of 2.7, 16.0, and 19.6 times higher than that of Co@BC-S, Co@BC, and Co@BC-N, respectively. Furthermore, this system exhibited good tolerance to environmental matrix, great effectiveness in actual water body, and high degradation efficiency of CBZ in five cycles. Overall, this work not only bridged the knowledge gap of the connections between structural properties of the modified Co@BC hybrid and catalytic performance, but also introduced a new view for utilization of PK dregs in catalytic decontamination. • Co was converted to Co 9 S 8 and Co 4 S 3 by S doping and N-S co-doping, respectively. • N doping was unfavorable whilst S doping was favorable for the catalytic process. • Co@BC-N,S exhibited high affinity for PMS to trigger electron-transfer process. • The reduction of Co 3+ to Co 2+ could be induced by S species. • Co@BC-N,S/PMS system exhibited excellent adaptability and reusability.
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