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Water Splitting: In Situ Formation of Oxygen Vacancies Achieving Near‐Complete Charge Separation in Planar BiVO4 Photoanodes (Adv. Mater. 26/2020)
Advanced Materials ( IF 29.4 ) Pub Date : 2020-07-01 , DOI: 10.1002/adma.202070198 Songcan Wang 1, 2 , Tianwei He 3 , Peng Chen 2 , Aijun Du 3 , Kostya (Ken) Ostrikov 3 , Wei Huang 1 , Lianzhou Wang 2
Advanced Materials ( IF 29.4 ) Pub Date : 2020-07-01 , DOI: 10.1002/adma.202070198 Songcan Wang 1, 2 , Tianwei He 3 , Peng Chen 2 , Aijun Du 3 , Kostya (Ken) Ostrikov 3 , Wei Huang 1 , Lianzhou Wang 2
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In article number 2001385, Lianzhou Wang and co‐workers develop a planar BiVO4 photoanode with in‐situ‐formed oxygen vacancies in the whole film for efficient photoelectrochemical water splitting. They reveal that, under AM 1.5 G illumination, oxygen vacancies increase the majority charge carrier density and photovoltage, leading to an excellent applied bias photon‐to‐current efficiency of 2.76%.
中文翻译:
水分解:在平面BiVO4光阳极中实现几乎完全电荷分离的氧空位的原位形成(Adv。Mater。26/2020)
Wang Lianzhou Wang及其同事在第2001385号文章中开发了一种在整个薄膜中具有原位形成的氧空位的平面BiVO 4光电阳极,以实现有效的光电化学水分解。他们发现,在AM 1.5 G光照下,氧空位会增加大多数电荷载流子密度和光电压,从而导致出色的施加偏置光子-电流效率为2.76%。
更新日期:2020-07-01
中文翻译:
水分解:在平面BiVO4光阳极中实现几乎完全电荷分离的氧空位的原位形成(Adv。Mater。26/2020)
Wang Lianzhou Wang及其同事在第2001385号文章中开发了一种在整个薄膜中具有原位形成的氧空位的平面BiVO 4光电阳极,以实现有效的光电化学水分解。他们发现,在AM 1.5 G光照下,氧空位会增加大多数电荷载流子密度和光电压,从而导致出色的施加偏置光子-电流效率为2.76%。
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