Template-free synthesis of hematite photoanodes with nanostructured ATO conductive underlayer for pec water splitting

Degao Wang; Yuying Zhang; Jianqiang Wang; Cheng Peng; Qing Huang; Shao Su; Lianhui Wang; Wei Huang; Chunhai Fan

doi:10.1021/am405137p

Template-free synthesis of hematite photoanodes with nanostructured ATO conductive underlayer for pec water splitting

Degao Wang, Yuying Zhang, Jianqiang Wang, Cheng Peng, Qing Huang, Shao Su, Lianhui Wang, Wei Huang, Chunhai Fan

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

32 Scopus citations

Abstract

Hematite is a promising semiconductor candidate for PEC water splitting. However, hematite is far well short of the theoretical value of solar-to-fuel conversion efficiency because of the fast recombination of photogenerated carriers. To address this limitation, a facile template-free preparation of hematite photoanode with nanostructured ATO (antimony-doped tin oxide) conductive underlayer served as a scaffold to transport photogenerated electron was developed to decrease the recombination opportunities of the carriers. Furthermore, the constructed ATO scaffold could also increase the light absorption of hematite and the number of the carriers, resulting in better PEC performance of hematite.

Original language	English
Pages (from-to)	36-40
Number of pages	5
Journal	ACS Applied Materials and Interfaces
Volume	6
Issue number	1
DOIs	https://doi.org/10.1021/am405137p
State	Published - 8 Jan 2014
Externally published	Yes

Keywords

antimony-doped tin oxide
conductive underlayer
nanostructured hematite photoanode
photoelectrochemical
water splitting

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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abstract = "Hematite is a promising semiconductor candidate for PEC water splitting. However, hematite is far well short of the theoretical value of solar-to-fuel conversion efficiency because of the fast recombination of photogenerated carriers. To address this limitation, a facile template-free preparation of hematite photoanode with nanostructured ATO (antimony-doped tin oxide) conductive underlayer served as a scaffold to transport photogenerated electron was developed to decrease the recombination opportunities of the carriers. Furthermore, the constructed ATO scaffold could also increase the light absorption of hematite and the number of the carriers, resulting in better PEC performance of hematite.",

keywords = "antimony-doped tin oxide, conductive underlayer, nanostructured hematite photoanode, photoelectrochemical, water splitting",

author = "Degao Wang and Yuying Zhang and Jianqiang Wang and Cheng Peng and Qing Huang and Shao Su and Lianhui Wang and Wei Huang and Chunhai Fan",

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T1 - Template-free synthesis of hematite photoanodes with nanostructured ATO conductive underlayer for pec water splitting

AU - Wang, Degao

AU - Zhang, Yuying

AU - Wang, Jianqiang

AU - Peng, Cheng

AU - Huang, Qing

AU - Su, Shao

AU - Wang, Lianhui

AU - Huang, Wei

AU - Fan, Chunhai

PY - 2014/1/8

Y1 - 2014/1/8

N2 - Hematite is a promising semiconductor candidate for PEC water splitting. However, hematite is far well short of the theoretical value of solar-to-fuel conversion efficiency because of the fast recombination of photogenerated carriers. To address this limitation, a facile template-free preparation of hematite photoanode with nanostructured ATO (antimony-doped tin oxide) conductive underlayer served as a scaffold to transport photogenerated electron was developed to decrease the recombination opportunities of the carriers. Furthermore, the constructed ATO scaffold could also increase the light absorption of hematite and the number of the carriers, resulting in better PEC performance of hematite.

AB - Hematite is a promising semiconductor candidate for PEC water splitting. However, hematite is far well short of the theoretical value of solar-to-fuel conversion efficiency because of the fast recombination of photogenerated carriers. To address this limitation, a facile template-free preparation of hematite photoanode with nanostructured ATO (antimony-doped tin oxide) conductive underlayer served as a scaffold to transport photogenerated electron was developed to decrease the recombination opportunities of the carriers. Furthermore, the constructed ATO scaffold could also increase the light absorption of hematite and the number of the carriers, resulting in better PEC performance of hematite.

KW - antimony-doped tin oxide

KW - conductive underlayer

KW - nanostructured hematite photoanode

KW - photoelectrochemical

KW - water splitting

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DO - 10.1021/am405137p

M3 - 文章

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Template-free synthesis of hematite photoanodes with nanostructured ATO conductive underlayer for pec water splitting

Abstract

Keywords

UN SDGs

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