Electron transport and visible light absorption in a plasmonic photocatalyst based on strontium niobate
Metallic oxide SrNbO3has been identified as an efficient hydrogen evolution photocatalyst. Here, Venkatesan and co-workers show that its visible light absorption stems from plasmon resonance, thanks to its large carrier density (despite a large 4.1 eV bandgap), as opposed to from an interband transi...
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Nature Portfolio
2017
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oai:doaj.org-article:0a18e1ec0c5142f480ec53a477e8a1e82021-12-02T17:06:21ZElectron transport and visible light absorption in a plasmonic photocatalyst based on strontium niobate10.1038/ncomms150702041-1723https://doaj.org/article/0a18e1ec0c5142f480ec53a477e8a1e82017-04-01T00:00:00Zhttps://doi.org/10.1038/ncomms15070https://doaj.org/toc/2041-1723Metallic oxide SrNbO3has been identified as an efficient hydrogen evolution photocatalyst. Here, Venkatesan and co-workers show that its visible light absorption stems from plasmon resonance, thanks to its large carrier density (despite a large 4.1 eV bandgap), as opposed to from an interband transition.D. Y. WanY. L. ZhaoY. CaiT. C. AsmaraZ. HuangJ. Q. ChenJ. HongS. M. YinC. T. NelsonM. R. MotapothulaB. X. YanD. XiangX. ChiH. ZhengW. ChenR. XuAriandoA. RusydiA. M. MinorM. B. H. BreeseM. SherburneM. AstaQ-H XuT VenkatesanNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-9 (2017) |
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DOAJ |
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DOAJ |
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EN |
| topic |
Science Q |
| spellingShingle |
Science Q D. Y. Wan Y. L. Zhao Y. Cai T. C. Asmara Z. Huang J. Q. Chen J. Hong S. M. Yin C. T. Nelson M. R. Motapothula B. X. Yan D. Xiang X. Chi H. Zheng W. Chen R. Xu Ariando A. Rusydi A. M. Minor M. B. H. Breese M. Sherburne M. Asta Q-H Xu T Venkatesan Electron transport and visible light absorption in a plasmonic photocatalyst based on strontium niobate |
| description |
Metallic oxide SrNbO3has been identified as an efficient hydrogen evolution photocatalyst. Here, Venkatesan and co-workers show that its visible light absorption stems from plasmon resonance, thanks to its large carrier density (despite a large 4.1 eV bandgap), as opposed to from an interband transition. |
| format |
article |
| author |
D. Y. Wan Y. L. Zhao Y. Cai T. C. Asmara Z. Huang J. Q. Chen J. Hong S. M. Yin C. T. Nelson M. R. Motapothula B. X. Yan D. Xiang X. Chi H. Zheng W. Chen R. Xu Ariando A. Rusydi A. M. Minor M. B. H. Breese M. Sherburne M. Asta Q-H Xu T Venkatesan |
| author_facet |
D. Y. Wan Y. L. Zhao Y. Cai T. C. Asmara Z. Huang J. Q. Chen J. Hong S. M. Yin C. T. Nelson M. R. Motapothula B. X. Yan D. Xiang X. Chi H. Zheng W. Chen R. Xu Ariando A. Rusydi A. M. Minor M. B. H. Breese M. Sherburne M. Asta Q-H Xu T Venkatesan |
| author_sort |
D. Y. Wan |
| title |
Electron transport and visible light absorption in a plasmonic photocatalyst based on strontium niobate |
| title_short |
Electron transport and visible light absorption in a plasmonic photocatalyst based on strontium niobate |
| title_full |
Electron transport and visible light absorption in a plasmonic photocatalyst based on strontium niobate |
| title_fullStr |
Electron transport and visible light absorption in a plasmonic photocatalyst based on strontium niobate |
| title_full_unstemmed |
Electron transport and visible light absorption in a plasmonic photocatalyst based on strontium niobate |
| title_sort |
electron transport and visible light absorption in a plasmonic photocatalyst based on strontium niobate |
| publisher |
Nature Portfolio |
| publishDate |
2017 |
| url |
https://doaj.org/article/0a18e1ec0c5142f480ec53a477e8a1e8 |
| work_keys_str_mv |
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