Sr0.4H1.2Nb2O6·H2O nanopolyhedra: An efficient photocatalyst

Shijing Liang; Xiaowei Wang; Yan Chen; Jia Zhu; Yongfan Zhang; Xuxu Wang; Zhaohui Li; Ling Wu

doi:10.1039/C0NR00327A

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Sr_0.4H_1.2Nb₂O₆·H₂O nanopolyhedra: An efficient photocatalyst†

Shijing Liang,^a Xiaowei Wang,^a Yan Chen,^a Jia Zhu,^a Yongfan Zhang,^a Xuxu Wang,^a Zhaohui Li*^a and Ling Wu*^a

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* Corresponding authors

^a State Key Laboratory Breeding Base of Photocatalysis, Research Institute of Photocatalysis, Fuzhou University, Fuzhou, P. R. China
E-mail: wuling@fzu.edu.cn, zhaohuili@fzu.edu.cn
Fax: +86-591-8377-9105
Tel: +86-591-8377-9362

Abstract

A photocatalyst Sr_0.4H_1.2Nb₂O₆·H₂O (HSN) nanopolyhedra with high surface area has been successfully prepared by a simple hydrothermal method. The as-prepared samples were characterized by XRD, BET, SEM, TEM and XPS. The electronic structure of HSN determined by DFT calculations and electrochemical measurement revealed that HSN is an indirect-bandgap and n-type semiconductor, respectively. HSN samples showed high photocatalytic activities for both pure water splitting and the decomposition of benzene. The rate of H₂ evolution over HSN was 15 times higher than that of P25 and the conversion ratio of benzene exceeded twice that of P25. The photocatalytic activities for water splitting can be greatly improved by loading various co-catalysts on HSN, such as Au, Pt, and Pd. The photocatalytic mechanisms were proposed based on the band structure and characterization results of the photocatalyst.

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Supplementary files

Schematic structure of HSN; Nitrogen adsorption-desorption isotherm of HSN samples; Comparison of XRD and XPS spectra of HSN sample before and after reaction of water splitting PDF (217K)

Article information

DOI: https://doi.org/10.1039/C0NR00327A
Article type: Paper
Submitted: 15 May 2010
Accepted: 06 Jul 2010
First published: 06 Sep 2010

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Nanoscale, 2010,2, 2262-2268

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Sr_0.4H_1.2Nb₂O₆·H₂O nanopolyhedra: An efficient photocatalyst

S. Liang, X. Wang, Y. Chen, J. Zhu, Y. Zhang, X. Wang, Z. Li and L. Wu, Nanoscale, 2010, 2, 2262 DOI: 10.1039/C0NR00327A

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