Steering exciton dissociation and charge migration in green synthetic oxygen-substituted ultrathin porous graphitic carbon nitride for boosted photocatalytic reactive oxygen species generation

[Display omitted] •Novel OCN-24-550 photocatalyst was prepared by a green strategy.•OCN-24-550 exhibits outstanding photocatalytic performance for ROS generation.•Ultrathin porous structure and oxygen-substitution boost exciton dissociation.•This work provides guidance for the development of g-C3N4-...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 385; p. 123919
Main Authors Guo, Hai, Niu, Cheng-Gang, Feng, Cheng-Yang, Liang, Chao, Zhang, Lei, Wen, Xiao-Ju, Yang, Yang, Liu, Hui-Yun, Li, Lu, Lin, Li-Shen
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.04.2020
Subjects
Charge migration
Exciton dissociation
g-C3N4
Photocatalysis
ROS
g-C3N4
Charge migration
Exciton dissociation
Photocatalysis
ROS
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Abstract [Display omitted] •Novel OCN-24-550 photocatalyst was prepared by a green strategy.•OCN-24-550 exhibits outstanding photocatalytic performance for ROS generation.•Ultrathin porous structure and oxygen-substitution boost exciton dissociation.•This work provides guidance for the development of g-C3N4-based photocatalyst. Light-driven reactive oxygen species (ROS) generation from molecular oxygen activation is normally recognized as an effective route for environmental pollutants removal. Herein, oxygen-substituted ultrathin porous graphitic carbon nitride (g-C3N4) nanosheets are prepared through a two-step hydrothermal-recalcination treatment of bulk g-C3N4 (BCN), and it is found that the obtained samples display enhanced ROS generation, as reflected by the removal of oxytetracycline hydrochloride (OTC). When stimulated by visible light, about 85.76% of OTC can be removed by the optimal sample (OCN-24-550) within 120 min, which is obviously higher than that of bulk g-C3N4 by a factor of 4.99. Meanwhile, nitroblue tetrazolium (NBT) transformation and H2O2 generation also indicate that the OCN-24-550 possess the highest reactivity, which can produce 47.25 μM of H2O2 and 9.07 × 10−10 M of the steady-state O2− during the reaction. The enhanced photocatalytic performance of OCN-24-550 is attributed to the synergistic effect of ultrathin porous structure and heteroatom O substitution. Specifically, the ultrathin porous structure can enlarge the surface area and then facilitate the diffusion of reactant, while the O substitution can optimize the electronic structure by creating a local electronic polarization effect, as confirmed by density functional theory (DFT) calculations, and thus result in a boosted exciton dissociation and accelerated charge migration. This work not only presents a comprehensive insight into g-C3N4-based reaction system from exciton and charge carrier, but also provides a meaningful guidance for exploring novel photocatalytic wastewater treatment devices from a more environment-friendly perspective.
AbstractList [Display omitted] •Novel OCN-24-550 photocatalyst was prepared by a green strategy.•OCN-24-550 exhibits outstanding photocatalytic performance for ROS generation.•Ultrathin porous structure and oxygen-substitution boost exciton dissociation.•This work provides guidance for the development of g-C3N4-based photocatalyst. Light-driven reactive oxygen species (ROS) generation from molecular oxygen activation is normally recognized as an effective route for environmental pollutants removal. Herein, oxygen-substituted ultrathin porous graphitic carbon nitride (g-C3N4) nanosheets are prepared through a two-step hydrothermal-recalcination treatment of bulk g-C3N4 (BCN), and it is found that the obtained samples display enhanced ROS generation, as reflected by the removal of oxytetracycline hydrochloride (OTC). When stimulated by visible light, about 85.76% of OTC can be removed by the optimal sample (OCN-24-550) within 120 min, which is obviously higher than that of bulk g-C3N4 by a factor of 4.99. Meanwhile, nitroblue tetrazolium (NBT) transformation and H2O2 generation also indicate that the OCN-24-550 possess the highest reactivity, which can produce 47.25 μM of H2O2 and 9.07 × 10−10 M of the steady-state O2− during the reaction. The enhanced photocatalytic performance of OCN-24-550 is attributed to the synergistic effect of ultrathin porous structure and heteroatom O substitution. Specifically, the ultrathin porous structure can enlarge the surface area and then facilitate the diffusion of reactant, while the O substitution can optimize the electronic structure by creating a local electronic polarization effect, as confirmed by density functional theory (DFT) calculations, and thus result in a boosted exciton dissociation and accelerated charge migration. This work not only presents a comprehensive insight into g-C3N4-based reaction system from exciton and charge carrier, but also provides a meaningful guidance for exploring novel photocatalytic wastewater treatment devices from a more environment-friendly perspective.
ArticleNumber 123919
Author Lin, Li-Shen
Feng, Cheng-Yang
Li, Lu
Guo, Hai
Liang, Chao
Wen, Xiao-Ju
Zhang, Lei
Yang, Yang
Liu, Hui-Yun
Niu, Cheng-Gang
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  givenname: Cheng-Gang
  orcidid: 0000-0002-5904-9111
  surname: Niu
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  orcidid: 0000-0002-6450-7244
  surname: Wen
  fullname: Wen, Xiao-Ju
  organization: School of Chemistry and Environmental Engineering, Yancheng Teachers University, Xiwang Road, Yancheng, Jiangsu Province 224051, China
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  givenname: Yang
  surname: Yang
  fullname: Yang, Yang
  organization: College of Environmental Science Engineering, Key Laboratory of Environmental Biology Pollution Control, Ministry of Education, Hunan University, Changsha 410082, China
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  givenname: Hui-Yun
  surname: Liu
  fullname: Liu, Hui-Yun
  organization: College of Environmental Science Engineering, Key Laboratory of Environmental Biology Pollution Control, Ministry of Education, Hunan University, Changsha 410082, China
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  organization: College of Environmental Science Engineering, Key Laboratory of Environmental Biology Pollution Control, Ministry of Education, Hunan University, Changsha 410082, China
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Charge migration
Exciton dissociation
Photocatalysis
ROS
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Snippet [Display omitted] •Novel OCN-24-550 photocatalyst was prepared by a green strategy.•OCN-24-550 exhibits outstanding photocatalytic performance for ROS...
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elsevier
SourceType Enrichment Source
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StartPage 123919
SubjectTerms Charge migration
Exciton dissociation
g-C3N4
Photocatalysis
ROS
Title Steering exciton dissociation and charge migration in green synthetic oxygen-substituted ultrathin porous graphitic carbon nitride for boosted photocatalytic reactive oxygen species generation
URI https://dx.doi.org/10.1016/j.cej.2019.123919
Volume 385
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