Substrate Dependent Water Splitting with Ultrathin α‑Fe_2O_3 Electrodes
Abstract
Thin films of hematite (α-Fe_2O_3) were deposited by atomic layer deposition (ALD), and the effects of metal oxide underlayers on the photocatalytic water oxidation performance were investigated. It was found that a Ga_2O_3 underlayer dramatically enhances the water oxidation performance of the thinnest hematite films. The performance enhancement is attributed to the increased crystallinity of the ultrathin films induced by the oxide underlayers. The degree of crystallinity was examined by Raman line shape analysis of the characteristic hematite phonon modes. It was found that multiple metal oxide underlayers, including Nb_2O_5, ITO, and WO_3, increase the film crystallinity compared to hematite deposited on bare FTO. The increased crystallite size was also clearly evident from the high resolution SEM images. The degree of crystallinity was found to correlate with absorbance and the photocatalytic water oxidation performance. These findings shed light on the origin of the dead layer at the interface of the FTO substrate and ultrathin hematite films and elucidate strategies at overcoming it.
Additional Information
© 2014 American Chemical Society. Special Issue: Michael Grätzel Festschrift. Received: November 27, 2013. Revised: April 22, 2014. Publication Date (Web): April 23, 2014. T.W.H. is grateful to the National Science Foundation (CHE- 1150378) for support of this research. XPS was performed at the Molecular Materials Research Center in the Beckman Institute at the California Institute of Technology.Attached Files
Supplemental Material - jp4116657_si_001.pdf
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Additional details
- Alternative title
- Substrate Dependent Water Splitting with Ultrathin α‑Fe2O3 Electrodes
- Eprint ID
- 49065
- DOI
- 10.1021/jp4116657
- Resolver ID
- CaltechAUTHORS:20140829-111759902
- NSF
- CHE-1150378
- Created
-
2014-08-29Created from EPrint's datestamp field
- Updated
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2021-11-10Created from EPrint's last_modified field