Preparation of nanoscale-dispersed g-C^sub 3^N^sub 4^/graphene oxide composite photocatalyst with enhanced visible-light photocatalytic activity

A novel metal-free photocatalyst of g-C3N4/graphene oxide nanocomposite (CNNP/GO) was fabricated by loading g-C3N4 nanoparticles on graphene oxide through electrostatic self-assembly strategy. XRD, FT-IR, SEM, TEM, and PL were adopted to analyze the structure and properties of the CNNP/GO nanocompos...

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Published in:Materials letters 2018-04, Vol.217, p.143
Main Authors: Wang, Hui, Shen, Qianhong, You, Zengyu, Su, Yuxuan, Yu, Yang, Babapour, Abbas, Zhang, Fang, Cheng, Di, Yang, Hui
Format: Article
Language:English
Subjects:
Absorption spectra
Band gap
Carbon nitride
Catalysts
Catalytic activity
Graphene
Infrared radiation
Light irradiation
Materials science
Methylene blue
Nanocomposites
Photocatalysis
Photocatalysts
Photodegradation
Self-assembly
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container_start_page 143
container_title Materials letters
container_volume 217
creator Wang, Hui
Shen, Qianhong
You, Zengyu
Su, Yuxuan
Yu, Yang
Babapour, Abbas
Zhang, Fang
Cheng, Di
Yang, Hui
description A novel metal-free photocatalyst of g-C3N4/graphene oxide nanocomposite (CNNP/GO) was fabricated by loading g-C3N4 nanoparticles on graphene oxide through electrostatic self-assembly strategy. XRD, FT-IR, SEM, TEM, and PL were adopted to analyze the structure and properties of the CNNP/GO nanocomposite. Photocatalytic activity of CNNP/GO nanocomposite was evaluated by the degradation of methylene blue (MB) under visible-light irradiation. The results show that the nanonization of bulk g-C3N4 widens the band gap of g-C3N4 from 2.75 eV to 3.40 eV, and the obtained CNNP exhibits an obvious blue-shift in the absorption band edge compared with bulk g-C3N4, resulting in the weak response to visible light. Introducing GO into CNNP can efficiently reduce the band gap to 2.55 eV, thereby enhancing the utilization of visible light. Moreover, the GO can be served as an electron acceptor in the CNNP/GO nanocomposite, leading to significantly improvement in separation efficiency of photo-generated carriers. Hence, the best photocatalytic degradation rate of MB over CNNP/GO nanocomposite is about 2 and 6 times higher than that over bulk g-C3N4 and CNNP samples, respectively. Furthermore, this work also indicates that the novel CNNP could be an excellent material to combine with other semiconductors to construct high efficient nanocomposite photocatalyst.
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XRD, FT-IR, SEM, TEM, and PL were adopted to analyze the structure and properties of the CNNP/GO nanocomposite. Photocatalytic activity of CNNP/GO nanocomposite was evaluated by the degradation of methylene blue (MB) under visible-light irradiation. The results show that the nanonization of bulk g-C3N4 widens the band gap of g-C3N4 from 2.75 eV to 3.40 eV, and the obtained CNNP exhibits an obvious blue-shift in the absorption band edge compared with bulk g-C3N4, resulting in the weak response to visible light. Introducing GO into CNNP can efficiently reduce the band gap to 2.55 eV, thereby enhancing the utilization of visible light. Moreover, the GO can be served as an electron acceptor in the CNNP/GO nanocomposite, leading to significantly improvement in separation efficiency of photo-generated carriers. Hence, the best photocatalytic degradation rate of MB over CNNP/GO nanocomposite is about 2 and 6 times higher than that over bulk g-C3N4 and CNNP samples, respectively. 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subjects Absorption spectra
Band gap
Carbon nitride
Catalysts
Catalytic activity
Graphene
Infrared radiation
Light irradiation
Materials science
Methylene blue
Nanocomposites
Photocatalysis
Photocatalysts
Photodegradation
Self-assembly
title Preparation of nanoscale-dispersed g-C^sub 3^N^sub 4^/graphene oxide composite photocatalyst with enhanced visible-light photocatalytic activity
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