Thin Heterojunctions and Spatially Separated Cocatalysts To Simultaneously Reduce Bulk and Surface Recombination in Photocatalysts

Ang Li; Xiaoxia Chang; Zhiqi Huang; Chengcheng Li; Yijia Wei; Lei Zhang; Tuo Wang; Jinlong Gong

doi:10.1002/anie.201605666

Thin Heterojunctions and Spatially Separated Cocatalysts To Simultaneously Reduce Bulk and Surface Recombination in Photocatalysts

Ang Li, Xiaoxia Chang, Zhiqi Huang, Chengcheng Li, Yijia Wei, Lei Zhang, Tuo Wang, Jinlong Gong^*

^*此作品的通讯作者

Tianjin University

科研成果: 期刊稿件 › 文章 › 同行评审

166 引用（Scopus）

摘要

Efficient charge separation and light absorption are crucial for solar energy conversion over solid photocatalysts. This paper describes the construction of Pt@TiO₂@In₂O₃@MnO_xmesoporous hollow spheres (PTIM-MSs) for highly efficient photocatalytic oxidation. TiO₂–In₂O₃double-layered shells were selectively decorated with Pt nanoparticles and MnO_xon the inner and outer surfaces, respectively. The spatially separated cocatalysts drive electrons and holes near the surface to flow in opposite directions, while the thin heterogeneous shell separates the charges generated in the bulk phase. The synergy between the thin heterojunctions and the spatially separated cocatalysts can simultaneously reduce bulk and surface/subsurface recombination. In₂O₃also serves as a sensitizer to enhance light absorption. The PTIM-MSs exhibit high photocatalytic activity for both water and alcohol oxidation.

源语言	英语
页（从-至）	13734-13738
页数	5
期刊	Angewandte Chemie - International Edition
卷	55
期	44
DOI	https://doi.org/10.1002/anie.201605666
出版状态	已出版 - 24 10月 2016
已对外发布	是

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Li, A., Chang, X., Huang, Z., Li, C., Wei, Y., Zhang, L., Wang, T., & Gong, J. (2016). Thin Heterojunctions and Spatially Separated Cocatalysts To Simultaneously Reduce Bulk and Surface Recombination in Photocatalysts. Angewandte Chemie - International Edition, 55(44), 13734-13738. https://doi.org/10.1002/anie.201605666

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title = "Thin Heterojunctions and Spatially Separated Cocatalysts To Simultaneously Reduce Bulk and Surface Recombination in Photocatalysts",

abstract = "Efficient charge separation and light absorption are crucial for solar energy conversion over solid photocatalysts. This paper describes the construction of Pt@TiO2@In2O3@MnOxmesoporous hollow spheres (PTIM-MSs) for highly efficient photocatalytic oxidation. TiO2–In2O3double-layered shells were selectively decorated with Pt nanoparticles and MnOxon the inner and outer surfaces, respectively. The spatially separated cocatalysts drive electrons and holes near the surface to flow in opposite directions, while the thin heterogeneous shell separates the charges generated in the bulk phase. The synergy between the thin heterojunctions and the spatially separated cocatalysts can simultaneously reduce bulk and surface/subsurface recombination. In2O3also serves as a sensitizer to enhance light absorption. The PTIM-MSs exhibit high photocatalytic activity for both water and alcohol oxidation.",

keywords = "charge recombination, heterojunctions, mesoporous materials, solar energy conversion, water oxidation",

author = "Ang Li and Xiaoxia Chang and Zhiqi Huang and Chengcheng Li and Yijia Wei and Lei Zhang and Tuo Wang and Jinlong Gong",

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AU - Li, Ang

AU - Chang, Xiaoxia

AU - Huang, Zhiqi

AU - Li, Chengcheng

AU - Wei, Yijia

AU - Zhang, Lei

AU - Wang, Tuo

AU - Gong, Jinlong

PY - 2016/10/24

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N2 - Efficient charge separation and light absorption are crucial for solar energy conversion over solid photocatalysts. This paper describes the construction of Pt@TiO2@In2O3@MnOxmesoporous hollow spheres (PTIM-MSs) for highly efficient photocatalytic oxidation. TiO2–In2O3double-layered shells were selectively decorated with Pt nanoparticles and MnOxon the inner and outer surfaces, respectively. The spatially separated cocatalysts drive electrons and holes near the surface to flow in opposite directions, while the thin heterogeneous shell separates the charges generated in the bulk phase. The synergy between the thin heterojunctions and the spatially separated cocatalysts can simultaneously reduce bulk and surface/subsurface recombination. In2O3also serves as a sensitizer to enhance light absorption. The PTIM-MSs exhibit high photocatalytic activity for both water and alcohol oxidation.

AB - Efficient charge separation and light absorption are crucial for solar energy conversion over solid photocatalysts. This paper describes the construction of Pt@TiO2@In2O3@MnOxmesoporous hollow spheres (PTIM-MSs) for highly efficient photocatalytic oxidation. TiO2–In2O3double-layered shells were selectively decorated with Pt nanoparticles and MnOxon the inner and outer surfaces, respectively. The spatially separated cocatalysts drive electrons and holes near the surface to flow in opposite directions, while the thin heterogeneous shell separates the charges generated in the bulk phase. The synergy between the thin heterojunctions and the spatially separated cocatalysts can simultaneously reduce bulk and surface/subsurface recombination. In2O3also serves as a sensitizer to enhance light absorption. The PTIM-MSs exhibit high photocatalytic activity for both water and alcohol oxidation.

KW - charge recombination

KW - heterojunctions

KW - mesoporous materials

KW - solar energy conversion

KW - water oxidation

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ER -

Thin Heterojunctions and Spatially Separated Cocatalysts To Simultaneously Reduce Bulk and Surface Recombination in Photocatalysts

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