Waste biomass-assisted synthesis of TiO2 and N/O-contained graphene-like biochar composites for enhanced adsorptive and photocatalytic performances

Waste biomass-assisted synthesis of TiO2 and N/O-contained graphene-like biochar composites for enhanced adsorptive and photocatalytic performances

•The biochar/TiO2 composite was prepared by facile biomass-assisted pyrolysis and activation strategies.•Better photocatalytic activity than pure TiO2 and commercial graphite/TiO2 composite.•The interaction between TiO2 and biochar influences the photocatalytic performance.•The method is simple, che...

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Veröffentlicht in:Journal of alloys and compounds 2022-04, Vol.899, p.163287, Article 163287
Hauptverfasser: Luo, Hao, Yu, Shunli, Zhong, Ming, Han, Yuqi, Su, Bitao, Lei, Ziqiang
Format: Artikel
Sprache:eng
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Adsorptive and photocatalytic performances
Adsorptivity
Biochar
Biomass
Characterization
Composite materials
Graphene
Holes (electron deficiencies)
Methylene blue
Performance enhancement
Photocatalysis
Pollutants
Prohibition
Pyrolysis
Synergistic effect
TiO2
Titanium dioxide
Wastewater
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container_issue
container_start_page 163287
container_title Journal of alloys and compounds
container_volume 899
creator Luo, Hao
Yu, Shunli
Zhong, Ming
Han, Yuqi
Su, Bitao
Lei, Ziqiang
description •The biochar/TiO2 composite was prepared by facile biomass-assisted pyrolysis and activation strategies.•Better photocatalytic activity than pure TiO2 and commercial graphite/TiO2 composite.•The interaction between TiO2 and biochar influences the photocatalytic performance.•The method is simple, cheap, and environmental. Titanium dioxide (TiO2) is a promising semiconductor photocatalyst for degradation of organic pollutants but is hampered by bandwidth prohibition and high probability of photo-generated electron-hole recombination. Searching for effective modification strategies to alleviate these issues is thus particularly significant. Herein, two series of composites of TiO2 and graphene-like biochar (PC) were prepared via a simple biomass-assisted pyrolysis coupled with activation strategy and characterized by various techniques. The methylene blue (MB)-simulated waste water was used to evaluate their adsorptive and photocatalytic performances. The results showed that the optimal TiO2-PC composite delivered an excellent photocatalytic performance, nearly 4 times as TiO2. The enhanced performance was probably caused by the synergistic effect among the graphene-like PC, the self-introduced N/O heteroatom, and the interaction between TiO2 and PC. Furthermore, the possible photocatalytic process was also proposed. This work may provide a guidance on preparing high-performance composites through a simple, cheap, and environmental biomass-assisted strategy for highly-efficient photocatalysis application.
doi_str_mv 10.1016/j.jallcom.2021.163287
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Titanium dioxide (TiO2) is a promising semiconductor photocatalyst for degradation of organic pollutants but is hampered by bandwidth prohibition and high probability of photo-generated electron-hole recombination. Searching for effective modification strategies to alleviate these issues is thus particularly significant. Herein, two series of composites of TiO2 and graphene-like biochar (PC) were prepared via a simple biomass-assisted pyrolysis coupled with activation strategy and characterized by various techniques. The methylene blue (MB)-simulated waste water was used to evaluate their adsorptive and photocatalytic performances. The results showed that the optimal TiO2-PC composite delivered an excellent photocatalytic performance, nearly 4 times as TiO2. The enhanced performance was probably caused by the synergistic effect among the graphene-like PC, the self-introduced N/O heteroatom, and the interaction between TiO2 and PC. 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Titanium dioxide (TiO2) is a promising semiconductor photocatalyst for degradation of organic pollutants but is hampered by bandwidth prohibition and high probability of photo-generated electron-hole recombination. Searching for effective modification strategies to alleviate these issues is thus particularly significant. Herein, two series of composites of TiO2 and graphene-like biochar (PC) were prepared via a simple biomass-assisted pyrolysis coupled with activation strategy and characterized by various techniques. The methylene blue (MB)-simulated waste water was used to evaluate their adsorptive and photocatalytic performances. The results showed that the optimal TiO2-PC composite delivered an excellent photocatalytic performance, nearly 4 times as TiO2. The enhanced performance was probably caused by the synergistic effect among the graphene-like PC, the self-introduced N/O heteroatom, and the interaction between TiO2 and PC. 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Titanium dioxide (TiO2) is a promising semiconductor photocatalyst for degradation of organic pollutants but is hampered by bandwidth prohibition and high probability of photo-generated electron-hole recombination. Searching for effective modification strategies to alleviate these issues is thus particularly significant. Herein, two series of composites of TiO2 and graphene-like biochar (PC) were prepared via a simple biomass-assisted pyrolysis coupled with activation strategy and characterized by various techniques. The methylene blue (MB)-simulated waste water was used to evaluate their adsorptive and photocatalytic performances. The results showed that the optimal TiO2-PC composite delivered an excellent photocatalytic performance, nearly 4 times as TiO2. The enhanced performance was probably caused by the synergistic effect among the graphene-like PC, the self-introduced N/O heteroatom, and the interaction between TiO2 and PC. 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subjects Adsorptive and photocatalytic performances
Adsorptivity
Biochar
Biomass
Characterization
Composite materials
Graphene
Holes (electron deficiencies)
Methylene blue
Performance enhancement
Photocatalysis
Pollutants
Prohibition
Pyrolysis
Synergistic effect
TiO2
Titanium dioxide
Wastewater
title Waste biomass-assisted synthesis of TiO2 and N/O-contained graphene-like biochar composites for enhanced adsorptive and photocatalytic performances
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