Fabrication of Oxygen-Doped Double-Shelled GaN Hollow Spheres toward Efficient Photoreduction of CO2

Yuan Zhang; Yong Zhou; Lanqin Tang; Meng Wang; Ping Li; Wenguang Tu; Junming Liu; Zhigang Zou

doi:10.1002/ppsc.201500235

Fabrication of Oxygen-Doped Double-Shelled GaN Hollow Spheres toward Efficient Photoreduction of CO₂

Yuan Zhang, Yong Zhou, Lanqin Tang, Meng Wang, Ping Li, Wenguang Tu, Junming Liu, Zhigang Zou

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Double-shelled GaN hollow spheres are prepared for photocatalytic reduction of CO₂ through ammonia-gas nitridation of shape-analogous Ga₂O₃ hollow spheres. Small amount oxygen in situ doping narrows the bandgap of the GaN hollow sphere which significantly enhances the utilization of visible light. The large surface area of the hollow spheres provides more activity sites for the photoreduction reaction. The specific hollow structure also allows the trapping of the incident light for a longer time during photocatalysis process, which provides more opportunities for light absorption. Loading of Pt and RuO₂ cocatalysts further enhances the separation of photogenerated electrons and holes to improve the CO₂ reduction activity.

Original language	English
Pages (from-to)	583-588
Number of pages	6
Journal	Particle and Particle Systems Characterization
Volume	33
Issue number	8
DOIs	https://doi.org/10.1002/ppsc.201500235
State	Published - 1 Aug 2016
Externally published	Yes

Keywords

CO photoreduction
hollow sphere
in situ doping
photocatalysis
visible light

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10.1002/ppsc.201500235

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title = "Fabrication of Oxygen-Doped Double-Shelled GaN Hollow Spheres toward Efficient Photoreduction of CO2 ",

abstract = "Double-shelled GaN hollow spheres are prepared for photocatalytic reduction of CO2 through ammonia-gas nitridation of shape-analogous Ga2O3 hollow spheres. Small amount oxygen in situ doping narrows the bandgap of the GaN hollow sphere which significantly enhances the utilization of visible light. The large surface area of the hollow spheres provides more activity sites for the photoreduction reaction. The specific hollow structure also allows the trapping of the incident light for a longer time during photocatalysis process, which provides more opportunities for light absorption. Loading of Pt and RuO2 cocatalysts further enhances the separation of photogenerated electrons and holes to improve the CO2 reduction activity.",

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doi = "10.1002/ppsc.201500235",

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T1 - Fabrication of Oxygen-Doped Double-Shelled GaN Hollow Spheres toward Efficient Photoreduction of CO2

AU - Zhang, Yuan

AU - Zhou, Yong

AU - Tang, Lanqin

AU - Wang, Meng

AU - Li, Ping

AU - Tu, Wenguang

AU - Liu, Junming

AU - Zou, Zhigang

PY - 2016/8/1

Y1 - 2016/8/1

N2 - Double-shelled GaN hollow spheres are prepared for photocatalytic reduction of CO2 through ammonia-gas nitridation of shape-analogous Ga2O3 hollow spheres. Small amount oxygen in situ doping narrows the bandgap of the GaN hollow sphere which significantly enhances the utilization of visible light. The large surface area of the hollow spheres provides more activity sites for the photoreduction reaction. The specific hollow structure also allows the trapping of the incident light for a longer time during photocatalysis process, which provides more opportunities for light absorption. Loading of Pt and RuO2 cocatalysts further enhances the separation of photogenerated electrons and holes to improve the CO2 reduction activity.

AB - Double-shelled GaN hollow spheres are prepared for photocatalytic reduction of CO2 through ammonia-gas nitridation of shape-analogous Ga2O3 hollow spheres. Small amount oxygen in situ doping narrows the bandgap of the GaN hollow sphere which significantly enhances the utilization of visible light. The large surface area of the hollow spheres provides more activity sites for the photoreduction reaction. The specific hollow structure also allows the trapping of the incident light for a longer time during photocatalysis process, which provides more opportunities for light absorption. Loading of Pt and RuO2 cocatalysts further enhances the separation of photogenerated electrons and holes to improve the CO2 reduction activity.

KW - CO photoreduction

KW - hollow sphere

KW - in situ doping

KW - photocatalysis

KW - visible light

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Fabrication of Oxygen-Doped Double-Shelled GaN Hollow Spheres toward Efficient Photoreduction of CO₂

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Keywords

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