Enhanced photocatalytic performance of ferroelectric-based SrBi4Ti4O15/SnS2 hybrids by piezoelectric effect

•SBTO/SnS2 hybrids with different SnS2 nanostructures have been developed.•SBTO/SnS2 hybrids show excellent photocatalytic activity and recyclability ascribed to the effective built-in field.•SBTO/SnS2 hybrids with SnS2 hollow nanoflowers show the best photocatalytic activity. [Display omitted] Comb...

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Veröffentlicht in:	Journal of alloys and compounds 2021-11, Vol.883, p.160743, Article 160743
Hauptverfasser:	Wang, Minggui, Zheng, Wei, Tao, Zhili, Zhang, Lijin, Luan, Haoxue, Sun, Xiaohuan, Han, Jie
Format:	Artikel
Sprache:	eng
Schlagworte:	Catalytic activity Electric fields Electromagnetic absorption Electrons Ferroelectric materials Ferroelectricity Nanoparticles Nanostructure Photocatalysis Piezoelectric effect Piezoelectricity SBTO/SnS2 hybrid Separation Tin disulfide Visible light photocatalysis
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container_title	Journal of alloys and compounds
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creator	Wang, Minggui Zheng, Wei Tao, Zhili Zhang, Lijin Luan, Haoxue Sun, Xiaohuan Han, Jie
description	•SBTO/SnS2 hybrids with different SnS2 nanostructures have been developed.•SBTO/SnS2 hybrids show excellent photocatalytic activity and recyclability ascribed to the effective built-in field.•SBTO/SnS2 hybrids with SnS2 hollow nanoflowers show the best photocatalytic activity. [Display omitted] Combining the ferroelectric with semiconductor photocatalyst has been demonstrated as an effective strategy to facilitate the separation of photogenerated electrons and holes, leading to superior synergistic catalytic performance. Herein, SrBi4Ti4O15 (SBTO)/SnS2 hybrids were synthesized, where SnS2 nanostructures were decorated on the surfaces of SBTO nanosheets through a hydrothermal method. The nanostructure of SnS2 could be controlled from nanoparticles to hollow nanoflowers and eventually nanoflowers with increasing concentration of SnCl4. The light absorption capability, photocatalytic activity, and stability of SBTO/SnS2 hybrids were tremendously enhanced, ascribing to the introduction of SnS2 and built-in electric field of ferroelectric SBTO. The introduced periodic magnetic stirring on ferroelectric could resolve the electrostatic screening and help maintain the constant effectiveness of built-in field, promoting the separation of electrons and holes and further improving photocatalytic activity.
doi_str_mv	10.1016/j.jallcom.2021.160743
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[Display omitted] Combining the ferroelectric with semiconductor photocatalyst has been demonstrated as an effective strategy to facilitate the separation of photogenerated electrons and holes, leading to superior synergistic catalytic performance. Herein, SrBi4Ti4O15 (SBTO)/SnS2 hybrids were synthesized, where SnS2 nanostructures were decorated on the surfaces of SBTO nanosheets through a hydrothermal method. The nanostructure of SnS2 could be controlled from nanoparticles to hollow nanoflowers and eventually nanoflowers with increasing concentration of SnCl4. The light absorption capability, photocatalytic activity, and stability of SBTO/SnS2 hybrids were tremendously enhanced, ascribing to the introduction of SnS2 and built-in electric field of ferroelectric SBTO. 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[Display omitted] Combining the ferroelectric with semiconductor photocatalyst has been demonstrated as an effective strategy to facilitate the separation of photogenerated electrons and holes, leading to superior synergistic catalytic performance. Herein, SrBi4Ti4O15 (SBTO)/SnS2 hybrids were synthesized, where SnS2 nanostructures were decorated on the surfaces of SBTO nanosheets through a hydrothermal method. The nanostructure of SnS2 could be controlled from nanoparticles to hollow nanoflowers and eventually nanoflowers with increasing concentration of SnCl4. The light absorption capability, photocatalytic activity, and stability of SBTO/SnS2 hybrids were tremendously enhanced, ascribing to the introduction of SnS2 and built-in electric field of ferroelectric SBTO. 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[Display omitted] Combining the ferroelectric with semiconductor photocatalyst has been demonstrated as an effective strategy to facilitate the separation of photogenerated electrons and holes, leading to superior synergistic catalytic performance. Herein, SrBi4Ti4O15 (SBTO)/SnS2 hybrids were synthesized, where SnS2 nanostructures were decorated on the surfaces of SBTO nanosheets through a hydrothermal method. The nanostructure of SnS2 could be controlled from nanoparticles to hollow nanoflowers and eventually nanoflowers with increasing concentration of SnCl4. The light absorption capability, photocatalytic activity, and stability of SBTO/SnS2 hybrids were tremendously enhanced, ascribing to the introduction of SnS2 and built-in electric field of ferroelectric SBTO. 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subjects	Catalytic activity Electric fields Electromagnetic absorption Electrons Ferroelectric materials Ferroelectricity Nanoparticles Nanostructure Photocatalysis Piezoelectric effect Piezoelectricity SBTO/SnS2 hybrid Separation Tin disulfide Visible light photocatalysis
title	Enhanced photocatalytic performance of ferroelectric-based SrBi4Ti4O15/SnS2 hybrids by piezoelectric effect
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