Strategy for improving photocatalytic ozonation activity of g-C3N4 by halogen doping for water purification

Feasibility of improving photocatalytic ozonation (PCO) activity of g-C3N4 (CN) by doping halogen (F, Cl, Br and I) was evaluated from the aspect of O3/O2 mass transfer and photogenerated electron (e-) and hole (h+) recombination. All halogen-CN had better activity (F-CN>I-CN>Cl-CN>Br-CN) f...

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Published in:Applied catalysis. B, Environmental Environmental, 2022-06, Vol.306, p.121133, Article 121133
Main Authors: Tan, Yushan, Chen, Weirui, Liao, Gaozu, Li, Xukai, Wang, Jing, Tang, Yiming, Li, Laisheng
Format: Article
Language:English
Subjects:
ATZ degradation
Carbon nitride
Catalysts
Doping
Electronegativity
Electrons
g-C3N4
Halogen doping
Hydrogen
Hydrophobicity
Mass transfer
Oxidation
Ozonation
Photocatalysis
Photocatalytic ozonation
Recombination
Reduction
Water purification
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Summary:Feasibility of improving photocatalytic ozonation (PCO) activity of g-C3N4 (CN) by doping halogen (F, Cl, Br and I) was evaluated from the aspect of O3/O2 mass transfer and photogenerated electron (e-) and hole (h+) recombination. All halogen-CN had better activity (F-CN>I-CN>Cl-CN>Br-CN) for degrading ATZ than that of CN. Experimental and theoretical simulations results showed that doping halogen made the electron unevenly distributed and formed hydrophobic sites on CN, narrowed Eg of CN and enlarged e- migration space. The above properties were favorable for enhancing mass transfer of O3/O2 and suppressed e--h+ recombination. Besides, they either upshifted CB (C-I) or downshifted VB (C-F, C-Cl) to enhance the oxidation function of •OH or h+. One-electron reduction (high e- utilization) of O3 was weakened and three-electron reduction (low e- utilization) of O2 was enhanced with decrease of halogen electronegativity. This work provided insights into catalyst design for PCO process. [Display omitted] •Halogen doping enhanced activity of g-C3N4 for PCO of ATZ.•Function of halogen in g-C3N4 varied with each other.•SER reaction by O3 had the higher e- utilization rate than TER reaction by O2.•Four ATZ degradation pathways and toxicity of by-products were deduced.
ISSN:0926-3373
1873-3883
DOI:10.1016/j.apcatb.2022.121133