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JOURNAL ARTICLE

Ultrafine Ti4+ doped α-Fe2O3 nanorod array photoanodes with high charge separation efficiency for solar water splitting

Yilin LiuJie LiuWenjun LuoXin WenXiaokang LiuZhigang ZouWei Huang

Year: 2017 Journal:   Journal of Physics D Applied Physics Vol: 50 (25)Pages: 255502-255502   Publisher: Institute of Physics
DOI: 10.1088/1361-6463/aa6fb7
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Abstract

Hematite (α-Fe2O3) is a promising photoanode material for solar water splitting due to its suitable band gap, earth-abundance, excellent stability and non-toxicity. However, a short hole diffusion length limits its performance. A nanorod array structure can shorten hole transfer distance to photoelectrode/electrolyte interface and decrease recombination of photo-generated carriers. However, average diameters of all previously reported nanorods are over 50 nm, thus being too thick for holes to transfer to the interface. It is still a big challenge to prepare a Fe2O3 nanorod array photoelectrode with finer diameter. In this study, we prepare an ultrafine α-Fe2O3 nanorod array film with average diameter about 25 nm by calcining γ-FeOOH for the first time. The ultrafine nanorod array photoanode indicates much higher carrier separation efficiency and performance than a conventional nanorod array film.

Keywords:
Nanorod Materials science Optoelectronics Hematite Doping Calcination Nanotechnology Water splitting Chemical engineering Photocatalysis Chemistry

Metrics

6
Cited By
0.32
FWCI (Field Weighted Citation Impact)
40
Refs
0.55
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Iron oxide chemistry and applications
Physical Sciences →  Energy →  Renewable Energy, Sustainability and the Environment
Advanced Photocatalysis Techniques
Physical Sciences →  Energy →  Renewable Energy, Sustainability and the Environment
Microbial Fuel Cells and Bioremediation
Physical Sciences →  Environmental Science →  Environmental Engineering

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