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W4286267905 endingPage "166392" @default.
W4286267905 startingPage "166392" @default.
W4286267905 abstract "Catalytic-oriented applications of graphitic carbon nitride (g-C3N4 (GCN)) are excessively restricted by some intrinsic photoelectronic shortcomings. To address these issues, the amorphous phase of ZnO and SiO2, the electron-trapping role of SiO2, the high light-activity of pc-GCN, and the integrated Z-scheme heterojunction between ZnO and Phosphorous- and Carbon- co-modified GCN (pc-GCN) synergistically provided prominent features; these included the prolonged lifetime of photo-induced charges, the faster charge transportation, and the ultrafast transformation of light-to-chemical energy over the heterogeneous nanocomposite of pc-GCN/15 wt%-SiO2/5 wt%-ZnO (pc-GCN/15-SiO2/5-ZnO) that immensely outperformed pristine GCN under white-LED light irradiation (WLLI (λ ≥ 420 nm)). Therefore, Methylene Blue (MB) oxidation yield and Total Organic Carbon (TOC) removal were dramatically increased to 100 % and 96.8 % through the pseudo-second-order mechanism within 90 min under the optimum conditions, respectively. In addition to the expeditious eradication of organic pollutants, the photocatalytic activity of pc-GCN/15-SiO2/5-ZnO was about 10 times higher than that of GCN; the enhanced photocatalytic performances were facially resuscitated for long-lasting photocatalytic decontamination. More importantly, assessing Lemna minor's life corroborated the ecotoxicity level of the MB-depolluted effluent that was regulated by performing a post-treatment step. Overall, it is anticipated that these authentic accomplishments could highlight promising prospective for developing effectual two-step environmental remediation." @default.
W4286267905 created "2022-07-21" @default.
W4286267905 creator A5000371560 @default.
W4286267905 creator A5008880731 @default.
W4286267905 creator A5023256368 @default.
W4286267905 creator A5043577705 @default.
W4286267905 creator A5082483447 @default.
W4286267905 date "2022-11-01" @default.
W4286267905 modified "2023-10-17" @default.
W4286267905 title "P and C co-modified g-C3N4/SiO2/ZnO Z-scheme based heterogeneous nanocomposite as a highly boosted visible-light-driven photocatalytic system" @default.
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W4286267905 doi "https://doi.org/10.1016/j.jallcom.2022.166392" @default.
W4286267905 hasPublicationYear "2022" @default.
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