Photo-induced degradation of PFASs: Excited-state mechanisms from real-time time-dependent density functional theory

Per- and polyfluoroalkyl substances (PFASs) are hazardous, carcinogenic, and bioaccumulative contaminants found in drinking water sources. To mitigate and remove these persistent pollutants, recent experimental efforts have focused on photo-induced processes to accelerate their degradation; however,...

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Veröffentlicht in:	Journal of hazardous materials 2022-02, Vol.423 (Pt A), p.127026-127026, Article 127026
Hauptverfasser:	Yamijala, Sharma S.R.K.C., Shinde, Ravindra, Hanasaki, Kota, Ali, Zulfikhar A., Wong, Bryan M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Density Functional Theory Electronic-excited states Fluorocarbons MATERIALS SCIENCE Per- and polyfluoroalkyl substances Photo-induced degradation Quantum Theory Time-dependent density functional theory Water
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container_end_page	127026
container_issue	Pt A
container_start_page	127026
container_title	Journal of hazardous materials
container_volume	423
creator	Yamijala, Sharma S.R.K.C. Shinde, Ravindra Hanasaki, Kota Ali, Zulfikhar A. Wong, Bryan M.
description	Per- and polyfluoroalkyl substances (PFASs) are hazardous, carcinogenic, and bioaccumulative contaminants found in drinking water sources. To mitigate and remove these persistent pollutants, recent experimental efforts have focused on photo-induced processes to accelerate their degradation; however, the mechanistic details of these promising degradation processes remain unclear. To shed crucial insight on these electronic-excited state processes, we present the first study of photo-induced degradation of explicitly-solvated PFASs using excited-state, real-time time-dependent density functional theory (RT-TDDFT) calculations. Furthermore, our large-scale RT-TDDFT calculations show that these photo-induced excitations can be highly selective by enabling a charge-transfer process that only dissociates the CF bond while keeping the surrounding water molecules intact. Collectively, the RT-TDDFT techniques used in this work (1) enable a new capability for probing photo-induced mechanisms that cannot be gleaned from conventional ground-state DFT calculations and (2) provide a rationale for understanding ongoing experiments that are actively exploring photo-induced degradation of PFASs and other environmental contaminants. [Display omitted] •We present the first study of photo-induced degradation of PFASs with RT-TDDFT methods.•RT-TDDFT calculations show this process is highly selective towards CF bond cleavage.•RT-TDDFT is a new capability for probing photo-induced degradation of contaminants.
doi_str_mv	10.1016/j.jhazmat.2021.127026
format	Article
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To mitigate and remove these persistent pollutants, recent experimental efforts have focused on photo-induced processes to accelerate their degradation; however, the mechanistic details of these promising degradation processes remain unclear. To shed crucial insight on these electronic-excited state processes, we present the first study of photo-induced degradation of explicitly-solvated PFASs using excited-state, real-time time-dependent density functional theory (RT-TDDFT) calculations. Furthermore, our large-scale RT-TDDFT calculations show that these photo-induced excitations can be highly selective by enabling a charge-transfer process that only dissociates the CF bond while keeping the surrounding water molecules intact. 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To mitigate and remove these persistent pollutants, recent experimental efforts have focused on photo-induced processes to accelerate their degradation; however, the mechanistic details of these promising degradation processes remain unclear. To shed crucial insight on these electronic-excited state processes, we present the first study of photo-induced degradation of explicitly-solvated PFASs using excited-state, real-time time-dependent density functional theory (RT-TDDFT) calculations. Furthermore, our large-scale RT-TDDFT calculations show that these photo-induced excitations can be highly selective by enabling a charge-transfer process that only dissociates the CF bond while keeping the surrounding water molecules intact. Collectively, the RT-TDDFT techniques used in this work (1) enable a new capability for probing photo-induced mechanisms that cannot be gleaned from conventional ground-state DFT calculations and (2) provide a rationale for understanding ongoing experiments that are actively exploring photo-induced degradation of PFASs and other environmental contaminants. 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subjects	Density Functional Theory Electronic-excited states Fluorocarbons MATERIALS SCIENCE Per- and polyfluoroalkyl substances Photo-induced degradation Quantum Theory Time-dependent density functional theory Water
title	Photo-induced degradation of PFASs: Excited-state mechanisms from real-time time-dependent density functional theory
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