One-pot synthesis and Nb4N5 surface modification of Nb4+ self-doped KNbO3 nanorods for enhanced visible-light-driven hydrogen production

Jianqiang Wang; Xia Wang; Zhentao Cui; Bing Liu; Minhua Cao

doi:10.1039/c5cp01199j

One-pot synthesis and Nb₄N₅ surface modification of Nb⁴⁺ self-doped KNbO₃ nanorods for enhanced visible-light-driven hydrogen production

Jianqiang Wang, Xia Wang, Zhentao Cui, Bing Liu, Minhua Cao^*

^*Corresponding author for this work

School of Chemistry and Chemical Engineering

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

31 Citations (Scopus)

Abstract

Herein, rhombohedral self-doped KNbO₃ (S-KN) nanorods were fabricated via a one pot, solvothermal method without using any surfactant. The presence of Nb⁴⁺ in S-KN greatly narrows its band gap and thus extends its photoresponse from UV to the visible light region. Moreover, S-KN/Nb₄N₅ nanorod heterostructures were obtained by nitriding S-KN nanorods for different times, which exhibited significantly enhanced photocatalytic activity for hydrogen production under visible light irradiation. The junction formed between S-KN and Nb₄N₅ and the Nb⁴⁺ self-doping of KN are supposed to be responsible for the enhanced photocatalytic activity of S-KN/Nb₄N₅. This study also paves the way for the synthesis of other similar photocatalysts.

Original language	English
Pages (from-to)	14185-14192
Number of pages	8
Journal	Physical Chemistry Chemical Physics
Volume	17
Issue number	21
DOIs	https://doi.org/10.1039/c5cp01199j
Publication status	Published - 7 Jun 2015

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title = "One-pot synthesis and Nb4N5 surface modification of Nb4+ self-doped KNbO3 nanorods for enhanced visible-light-driven hydrogen production",

abstract = "Herein, rhombohedral self-doped KNbO3 (S-KN) nanorods were fabricated via a one pot, solvothermal method without using any surfactant. The presence of Nb4+ in S-KN greatly narrows its band gap and thus extends its photoresponse from UV to the visible light region. Moreover, S-KN/Nb4N5 nanorod heterostructures were obtained by nitriding S-KN nanorods for different times, which exhibited significantly enhanced photocatalytic activity for hydrogen production under visible light irradiation. The junction formed between S-KN and Nb4N5 and the Nb4+ self-doping of KN are supposed to be responsible for the enhanced photocatalytic activity of S-KN/Nb4N5. This study also paves the way for the synthesis of other similar photocatalysts.",

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T1 - One-pot synthesis and Nb4N5 surface modification of Nb4+ self-doped KNbO3 nanorods for enhanced visible-light-driven hydrogen production

AU - Wang, Jianqiang

AU - Wang, Xia

AU - Cui, Zhentao

AU - Liu, Bing

AU - Cao, Minhua

PY - 2015/6/7

Y1 - 2015/6/7

N2 - Herein, rhombohedral self-doped KNbO3 (S-KN) nanorods were fabricated via a one pot, solvothermal method without using any surfactant. The presence of Nb4+ in S-KN greatly narrows its band gap and thus extends its photoresponse from UV to the visible light region. Moreover, S-KN/Nb4N5 nanorod heterostructures were obtained by nitriding S-KN nanorods for different times, which exhibited significantly enhanced photocatalytic activity for hydrogen production under visible light irradiation. The junction formed between S-KN and Nb4N5 and the Nb4+ self-doping of KN are supposed to be responsible for the enhanced photocatalytic activity of S-KN/Nb4N5. This study also paves the way for the synthesis of other similar photocatalysts.

AB - Herein, rhombohedral self-doped KNbO3 (S-KN) nanorods were fabricated via a one pot, solvothermal method without using any surfactant. The presence of Nb4+ in S-KN greatly narrows its band gap and thus extends its photoresponse from UV to the visible light region. Moreover, S-KN/Nb4N5 nanorod heterostructures were obtained by nitriding S-KN nanorods for different times, which exhibited significantly enhanced photocatalytic activity for hydrogen production under visible light irradiation. The junction formed between S-KN and Nb4N5 and the Nb4+ self-doping of KN are supposed to be responsible for the enhanced photocatalytic activity of S-KN/Nb4N5. This study also paves the way for the synthesis of other similar photocatalysts.

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One-pot synthesis and Nb₄N₅ surface modification of Nb⁴⁺ self-doped KNbO₃ nanorods for enhanced visible-light-driven hydrogen production

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