Water Splitting: Achieving Highly Efficient Photoelectrochemical Water Oxidation with a TiCl4 Treated 3D Antimony‐Doped SnO2 Macropore/Branched α‐Fe2O3 Nanorod Heterojunction Photoanode (Adv. Sci. 7/2015)

Yang‐Fan Xu; Hua‐Shang Rao; Bai‐Xue Chen; Ying Lin; Hong‐Yan Chen; Dai‐Bin Kuang; Cheng‐Yong Su

doi:10.1002/advs.201570025

. 2015 Jul 22;2(7):n/a. doi: 10.1002/advs.201570025

Water Splitting: Achieving Highly Efficient Photoelectrochemical Water Oxidation with a TiCl₄ Treated 3D Antimony‐Doped SnO₂ Macropore/Branched α‐Fe₂O₃ Nanorod Heterojunction Photoanode (Adv. Sci. 7/2015)

Yang‐Fan Xu ¹, Hua‐Shang Rao ¹, Bai‐Xue Chen ¹, Ying Lin ¹, Hong‐Yan Chen ¹, Dai‐Bin Kuang ^1,^✉, Cheng‐Yong Su ¹

PMCID: PMC5115434

Abstract

In article number 1500049, Dai‐Bin Kuang and co‐workers demonstrate a novel macroporous antimony‐doped SnO₂ as dedicated charge collector with high surface area and optical enhancement to load hematite nanorods for highly efficient water splitting. With post treatments, the composite photoanode achieves an impressive photocurrent density under sun illumination.

graphic file with name ADVS-2-0e-g001.jpg

Keywords: ATO, hematite, heterojunction, macropore, PEC water splitting

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Water Splitting: Achieving Highly Efficient Photoelectrochemical Water Oxidation with a TiCl₄ Treated 3D Antimony‐Doped SnO₂ Macropore/Branched α‐Fe₂O₃ Nanorod Heterojunction Photoanode (Adv. Sci. 7/2015)

Yang‐Fan Xu

Hua‐Shang Rao

Bai‐Xue Chen

Ying Lin

Hong‐Yan Chen

Dai‐Bin Kuang

Cheng‐Yong Su

Abstract

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Water Splitting: Achieving Highly Efficient Photoelectrochemical Water Oxidation with a TiCl4 Treated 3D Antimony‐Doped SnO2 Macropore/Branched α‐Fe2O3 Nanorod Heterojunction Photoanode (Adv. Sci. 7/2015)

Yang‐Fan Xu

Hua‐Shang Rao

Bai‐Xue Chen

Ying Lin

Hong‐Yan Chen

Dai‐Bin Kuang

Cheng‐Yong Su

Abstract

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Water Splitting: Achieving Highly Efficient Photoelectrochemical Water Oxidation with a TiCl₄ Treated 3D Antimony‐Doped SnO₂ Macropore/Branched α‐Fe₂O₃ Nanorod Heterojunction Photoanode (Adv. Sci. 7/2015)