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J Hazard Mater


Title:Theoretical exploration of VOCs removal mechanism by carbon nanotubes through persulfate-based advanced oxidation processes: Adsorption and catalytic oxidation
Author(s):Dai Z; Li D; Ao Z; Wang S; An T;
Address:"Guangzhou Key Laboratory of Environmental Catalysis and Pollution Control, Guangdong Key Laboratory of Environmental Catalysis and Health Risk Control, Institute of Environmental Health and Pollution Control, School of Environmental Science and Engineering, Guangdong University of Technology, Guangzhou 51006, China. Guangzhou Key Laboratory of Environmental Catalysis and Pollution Control, Guangdong Key Laboratory of Environmental Catalysis and Health Risk Control, Institute of Environmental Health and Pollution Control, School of Environmental Science and Engineering, Guangdong University of Technology, Guangzhou 51006, China. Electronic address: zhimin.ao@gdut.edu.cn. School of Chemical Engineering, University of Adelaide, Adelaide, SA 5005, Australia"
Journal Title:J Hazard Mater
Year:2021
Volume:20201126
Issue:
Page Number:124684 -
DOI: 10.1016/j.jhazmat.2020.124684
ISSN/ISBN:1873-3336 (Electronic) 0304-3894 (Linking)
Abstract:"Carbon-catalyzed persulfate activation for the removal of gaseous volatile organic compounds (VOCs) has not been reported yet, and the corresponding fundamental mechanisms of VOCs adsorption and the subsequent VOCs degradation remain controversial. In this work, theoretical chemistry calculations were carried out to explore the VOCs removal mechanism by the persulfate-based advanced oxidation processes (P-AOPs) for VOCs removal over single walled carbon nanotubes (SWCNT). This study provided detailed theoretical insights into the SWCNT/P-AOPs for VOCs treatment in terms of adsorption, activation, mineralization, and diffusion of VOCs or peroxymonosulfate (PMS). Various VOCs were found to be preferentially adsorbed onto SWCNT, and the adsorption strength of VOCs was found to be significantly dependent on their polarizability. On the other side, PMS adsorbed on SWCNT could be efficiently activated through accepting pi electron in the sp(2) carbon matrix of SWCNT rather than the electrons at dangling bonds to generate *OH radicals attributed to the strong interaction between PMS and SWCNT. Formaldehyde was then taken as an example to evaluate the catalytic degradation pathways via SWCNT/P-AOPs. Under the attack of *OH radicals, the ultrafast degradation pathway of formaldehyde with no byproduct CO was identified with ultralow reaction energy barrier and large energy release. In addition, factors affecting the adsorption of organic compounds were identified and the detailed PMS activation pathway was present directly in this work. Above all, this work extended the carbons/P-AOPs system to VOCs abatement and presented systematic evidences for the essential mechanisms associated with VOCs adsorption and PMS activation by SWCNT, and the corresponding removal pathway and mechanism were also understood"
Keywords:Advanced oxidation processes (AOPs) Carbon nanotubes Density functional theory (DFT) Persulfate Volatile organic compounds (VOCs) removal;
Notes:"PubMed-not-MEDLINEDai, Zhenhua Li, Didi Ao, Zhimin Wang, Shaobin An, Taicheng eng Research Support, Non-U.S. Gov't Netherlands 2020/12/12 J Hazard Mater. 2021 Mar 5; 405:124684. doi: 10.1016/j.jhazmat.2020.124684. Epub 2020 Nov 26"

 
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