g-C3N4 photoanode for photoelectrocatalytic synergistic pollutant degradation and hydrogen evolution

A highly active CNG1.0-Ni foam electrode was fabricated by electrophoretic deposition method for photoelectrocatalytic pollutants remove and H2 evolution. It exhibited high activity in synergetic organic pollutants degradation rate and H2 evolution rate in PEC reaction under visible light (λ > 42...

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Published inApplied surface science Vol. 467-468; pp. 658 - 665
Main Authors Zhao, Xiaolong, Pan, Donglai, Chen, Xiaofeng, Li, Ruping, Jiang, Tiange, Wang, Wenchao, Li, Guisheng, Leung, Dennis Y.C.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.02.2019
Subjects
Degradation
Graphene oxide
Graphitic C3N4
Hydrogen evolution
Photoelectrocatalysis
Degradation
Photoelectrocatalysis
Graphitic C3N4
Graphene oxide
Hydrogen evolution
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Abstract A highly active CNG1.0-Ni foam electrode was fabricated by electrophoretic deposition method for photoelectrocatalytic pollutants remove and H2 evolution. It exhibited high activity in synergetic organic pollutants degradation rate and H2 evolution rate in PEC reaction under visible light (λ > 420 nm) irradiation by using Pt foil as cathode, owing to its excellent visible light respond, high photogenerated electron-hole pairs separation efficiency and robust skeleton. [Display omitted] •Strong visible light absorption.•Abundant active sites and short migration path of charge carriers.•Fast charge transfer from g-C3N4 to nickel foam through rGO bridge.•High charge carrier separation.•Synergistic H2 evolution and pollutant degradation. Photoelectrocatalytic (PEC) technique for hydrogen evolution from water splitting and pollutant degradation is one of the most sustainable and environmental approaches for wastewater treatment and energy regeneration. Herein, a porous graphitic carbon nitride (g-C3N4)/reduction graphene oxide (rGO) structure (CNG) is constructed via a solvothermal approach. By using a facile electrophoretic deposition method, CNG is deposited on nickel (Ni) foam with the formation of highly active CNG-Ni foam photoanode. rGO were utilized to load g-C3N4, and also acts as the bridge for accelerating the rate of electron transfer from g-C3N4 to Ni foam. The resulted photoanode exhibits an excellent photoelectrochemical performance for synergistic pollutant degradation and H2 evolution under visible light irradiation (λ > 420 nm). Such excellent PEC activity is attributed to the strong visible-light absorption and fast electron transmission of the as-obtained photoanode. The visible light-driven photocurrent value of the optimal photoanode can be well maintained up to 24 h, indicating its high stability during the PEC process. This work also shows significance for paving a facile route to fabricating highly active photoelectrodes for environmental and energy applications.
AbstractList A highly active CNG1.0-Ni foam electrode was fabricated by electrophoretic deposition method for photoelectrocatalytic pollutants remove and H2 evolution. It exhibited high activity in synergetic organic pollutants degradation rate and H2 evolution rate in PEC reaction under visible light (λ > 420 nm) irradiation by using Pt foil as cathode, owing to its excellent visible light respond, high photogenerated electron-hole pairs separation efficiency and robust skeleton. [Display omitted] •Strong visible light absorption.•Abundant active sites and short migration path of charge carriers.•Fast charge transfer from g-C3N4 to nickel foam through rGO bridge.•High charge carrier separation.•Synergistic H2 evolution and pollutant degradation. Photoelectrocatalytic (PEC) technique for hydrogen evolution from water splitting and pollutant degradation is one of the most sustainable and environmental approaches for wastewater treatment and energy regeneration. Herein, a porous graphitic carbon nitride (g-C3N4)/reduction graphene oxide (rGO) structure (CNG) is constructed via a solvothermal approach. By using a facile electrophoretic deposition method, CNG is deposited on nickel (Ni) foam with the formation of highly active CNG-Ni foam photoanode. rGO were utilized to load g-C3N4, and also acts as the bridge for accelerating the rate of electron transfer from g-C3N4 to Ni foam. The resulted photoanode exhibits an excellent photoelectrochemical performance for synergistic pollutant degradation and H2 evolution under visible light irradiation (λ > 420 nm). Such excellent PEC activity is attributed to the strong visible-light absorption and fast electron transmission of the as-obtained photoanode. The visible light-driven photocurrent value of the optimal photoanode can be well maintained up to 24 h, indicating its high stability during the PEC process. This work also shows significance for paving a facile route to fabricating highly active photoelectrodes for environmental and energy applications.
Author Wang, Wenchao
Li, Guisheng
Leung, Dennis Y.C.
Li, Ruping
Jiang, Tiange
Pan, Donglai
Zhao, Xiaolong
Chen, Xiaofeng
Author_xml – sequence: 1
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  surname: Chen
  fullname: Chen, Xiaofeng
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  organization: The Education Ministry Key Lab of Resource Chemistry, Shanghai Key Laboratory of Rare Earth Functional Materials, Shanghai Normal University, Shanghai 200234, China
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  givenname: Ruping
  surname: Li
  fullname: Li, Ruping
  organization: The Education Ministry Key Lab of Resource Chemistry, Shanghai Key Laboratory of Rare Earth Functional Materials, Shanghai Normal University, Shanghai 200234, China
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  givenname: Tiange
  surname: Jiang
  fullname: Jiang, Tiange
  organization: The Education Ministry Key Lab of Resource Chemistry, Shanghai Key Laboratory of Rare Earth Functional Materials, Shanghai Normal University, Shanghai 200234, China
– sequence: 6
  givenname: Wenchao
  surname: Wang
  fullname: Wang, Wenchao
  organization: The Education Ministry Key Lab of Resource Chemistry, Shanghai Key Laboratory of Rare Earth Functional Materials, Shanghai Normal University, Shanghai 200234, China
– sequence: 7
  givenname: Guisheng
  surname: Li
  fullname: Li, Guisheng
  email: liguisheng@shnu.edu.cn
  organization: The Education Ministry Key Lab of Resource Chemistry, Shanghai Key Laboratory of Rare Earth Functional Materials, Shanghai Normal University, Shanghai 200234, China
– sequence: 8
  givenname: Dennis Y.C.
  surname: Leung
  fullname: Leung, Dennis Y.C.
  email: ycleung@hku.hk
  organization: Department of Mechanical Engineering, University of Hong Kong, Hong Kong, China
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Keywords Degradation
Photoelectrocatalysis
Graphitic C3N4
Graphene oxide
Hydrogen evolution
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Snippet A highly active CNG1.0-Ni foam electrode was fabricated by electrophoretic deposition method for photoelectrocatalytic pollutants remove and H2 evolution. It...
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SubjectTerms Degradation
Graphene oxide
Graphitic C3N4
Hydrogen evolution
Photoelectrocatalysis
Title g-C3N4 photoanode for photoelectrocatalytic synergistic pollutant degradation and hydrogen evolution
URI https://dx.doi.org/10.1016/j.apsusc.2018.10.090
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