Peroxymonosulfate-enhanced visible light photocatalytic degradation of bisphenol A by perylene imide-modified g-C3N4

[Display omitted] •PI-g-C3N4 exhibited higher photocatalytic activity than PTCDA and g-C3N4.•PMS largely increased degradation efficiency of BPA by PI-g-C3N4 photocatalyst.•O2−, 1O2, and h+ rather than SO4− were mainly responsible for BPA degradation.•The PI-g-C3N4 photocatalyst exhibited a high sta...

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Bibliographic Details
Published inApplied catalysis. B, Environmental Vol. 237; pp. 976 - 985
Main Authors Zhang, Juanjuan, Zhao, Xu, Wang, Yanbin, Gong, Yan, Cao, Di, Qiao, Meng
Format Journal Article
LanguageEnglish
Published Elsevier B.V 05.12.2018
Subjects
Bisphenol A
g-C3N4
Peroxymonosulfate
Photocatalysis
g-C3N4
Bisphenol A
Peroxymonosulfate
Photocatalysis
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Abstract [Display omitted] •PI-g-C3N4 exhibited higher photocatalytic activity than PTCDA and g-C3N4.•PMS largely increased degradation efficiency of BPA by PI-g-C3N4 photocatalyst.•O2−, 1O2, and h+ rather than SO4− were mainly responsible for BPA degradation.•The PI-g-C3N4 photocatalyst exhibited a high stability. In this study, a metal-free photocatalyst (PI-g-C3N4) was synthesized through an amidation reaction between perylene tetracarboxylic dianhydride (PTCDA) and graphitic carbon nitride (g-C3N4). In order to enhance the photocatalytic degradation efficiency of bisphenol A (BPA) by 5 wt% PI-g-C3N4, peroxymonosulfate (PMS) was introduced into this system. When 5 mM PMS was added, 96% of BPA with an initial concentration of 10 mg/L was degraded within 60 min; the pseudo-first-order degradation kinetics constant of BPA was increased from 0.0057 to 0.0501 min−1. Based on the photoelectrochemical analysis, it was proposed that PI-g-C3N4 achieved a more effective separation of photogenerated electron–hole pairs and displayed higher conductivity than PTCDA and g-C3N4 individually, thus promoting the PMS activation into active radicals by the photogenerated electrons. The BPA degradation was favored at high PMS concentrations under alkaline conditions. The slight inhibition effect of co-existing anions on the degradation of BPA followed the order: H2PO4− > NO3− ≈ HCO3−; Cl− had a remarkable positive effect on the degradation of BPA. The radical quenching tests and electron spin resonance results indicated that O2−, 1O2, and h+ were the major species for the degradation of BPA. Combined with intermediates analysis, the degradation mechanism and pathway of BPA was proposed. The high stability of the 5 wt% PI-g-C3N4 was finally demonstrated.
AbstractList [Display omitted] •PI-g-C3N4 exhibited higher photocatalytic activity than PTCDA and g-C3N4.•PMS largely increased degradation efficiency of BPA by PI-g-C3N4 photocatalyst.•O2−, 1O2, and h+ rather than SO4− were mainly responsible for BPA degradation.•The PI-g-C3N4 photocatalyst exhibited a high stability. In this study, a metal-free photocatalyst (PI-g-C3N4) was synthesized through an amidation reaction between perylene tetracarboxylic dianhydride (PTCDA) and graphitic carbon nitride (g-C3N4). In order to enhance the photocatalytic degradation efficiency of bisphenol A (BPA) by 5 wt% PI-g-C3N4, peroxymonosulfate (PMS) was introduced into this system. When 5 mM PMS was added, 96% of BPA with an initial concentration of 10 mg/L was degraded within 60 min; the pseudo-first-order degradation kinetics constant of BPA was increased from 0.0057 to 0.0501 min−1. Based on the photoelectrochemical analysis, it was proposed that PI-g-C3N4 achieved a more effective separation of photogenerated electron–hole pairs and displayed higher conductivity than PTCDA and g-C3N4 individually, thus promoting the PMS activation into active radicals by the photogenerated electrons. The BPA degradation was favored at high PMS concentrations under alkaline conditions. The slight inhibition effect of co-existing anions on the degradation of BPA followed the order: H2PO4− > NO3− ≈ HCO3−; Cl− had a remarkable positive effect on the degradation of BPA. The radical quenching tests and electron spin resonance results indicated that O2−, 1O2, and h+ were the major species for the degradation of BPA. Combined with intermediates analysis, the degradation mechanism and pathway of BPA was proposed. The high stability of the 5 wt% PI-g-C3N4 was finally demonstrated.
Author Gong, Yan
Cao, Di
Wang, Yanbin
Qiao, Meng
Zhao, Xu
Zhang, Juanjuan
Author_xml – sequence: 1
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  surname: Zhang
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  organization: Key Laboratory of Drinking Water Science and Technology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, PR China
– sequence: 2
  givenname: Xu
  surname: Zhao
  fullname: Zhao, Xu
  email: zhaoxu@rcees.ac.cn
  organization: Key Laboratory of Drinking Water Science and Technology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, PR China
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  organization: Key Laboratory of Drinking Water Science and Technology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, PR China
– sequence: 6
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  surname: Qiao
  fullname: Qiao, Meng
  organization: Key Laboratory of Drinking Water Science and Technology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing 100085, PR China
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Snippet [Display omitted] •PI-g-C3N4 exhibited higher photocatalytic activity than PTCDA and g-C3N4.•PMS largely increased degradation efficiency of BPA by PI-g-C3N4...
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SubjectTerms Bisphenol A
g-C3N4
Peroxymonosulfate
Photocatalysis
Title Peroxymonosulfate-enhanced visible light photocatalytic degradation of bisphenol A by perylene imide-modified g-C3N4
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