3D interconnected nanoporous Ta3N5 films for photoelectrochemical water splitting: thickness-controlled synthesis and insights into stability-Reference-Cited by-同舟云学术

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3D interconnected nanoporous Ta3N5 films for photoelectrochemical water splitting: thickness-controlled synthesis and insights into stability

Published:2021-02-09 Issue:8 Volume:64 Page:1876-1888
ISSN:2095-8226
Container-title:Science China Materials
language:en
Short-container-title:Sci. China Mater.

Author:

Wang Qiang,Zhang Lingxia,Li Bing,Zhu Hongmin,Shi Jianlin

Publisher

Springer Science and Business Media LLC

Subject

General Materials Science

Link

https://link.springer.com/content/pdf/10.1007/s40843-020-1584-6.pdf

Reference47 articles.

1. Lewis NS. Research opportunities to advance solar energy utilization. Science, 2016, 351: aad1920

2. Chen Y, Feng X, Liu Y, et al. Metal oxide-based tandem cells for self-biased photoelectrochemical water splitting. ACS Energy Lett, 2020, 5: 844–866

3. Seo J, Nishiyama H, Yamada T, et al. Visible-light-responsive photoanodes for highly active, stable water oxidation. Angew Chem Int Ed, 2018, 57: 8396–8415

4. Pihosh Y, Minegishi T, Nandal V, et al. Ta3N5-nanorods enabling highly efficient water oxidation via advantageous light harvesting and charge collection. Energy Environ Sci, 2020, 13: 1519–1530

5. Li Y, Zhang L, Torres-Pardo A, et al. Cobalt phosphate-modified barium-doped tantalum nitride nanorod photoanode with 1.5% solar energy conversion efficiency. Nat Commun, 2013, 4: 2566

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