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Electronic and surface properties of Ga-doped In2O3 ceramics

Regoutz, A., Egdell, R.G., Morgan, David John, Palgrave, R.G., Téllez, H., Skinner, S.J., Payne, D.J., Watson, G.W. and Scanlon, D.O. 2015. Electronic and surface properties of Ga-doped In2O3 ceramics. Applied Surface Science 349 , pp. 970-982. 10.1016/j.apsusc.2015.04.106

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Abstract

The limit of solubility of Ga2O3 in the cubic bixbyite In2O3 phase was established by X-ray diffraction and Raman spectroscopy to correspond to replacement of around 6% of In cations by Ga for samples prepared at 1250 °C. Density functional theory calculations suggest that Ga substitution should lead to widening of the bulk bandgap, as expected from the much larger gap of Ga2O3 as compared to In2O3. However both diffuse reflectance spectroscopy and valence band X-ray photoemission reveal an apparent narrowing of the gap with Ga doping. It is tentatively concluded that this anomaly arises from introduction of Ga+ surface lone pair states at the top of the valence band and structure at the top of the valence band in Ga-segregated samples is assigned to these lone pair states. In addition photoemission reveals a broadening of the valence band edge. Core X-ray photoemission spectra and low energy ion scattering spectroscopy both reveal pronounced segregation of Ga to the ceramic surface, which may be linked to both relief of strain in the bulk and the preferential occupation of surface sites by lone pair cations. Surprisingly Ga segregation is not accompanied by the development of chemically shifted structure in Ga 2p core XPS associated with Ga+. However experiments on ion bombarded Ga2O3, where a shoulder at the top edge of the valence band spectra provide a clear signature of Ga+ at the surface, show that the chemical shift between Ga+ and Ga3+ is too small to be resolved in Ga 2p core level spectra. Thus the failure to observe chemically shifted structure associated with Ga+ is not inconsistent with the proposal that band gap narrowing is associated with lone pair states at surfaces and interfaces.

Item Type: Article
Date Type: Publication
Status: Published
Schools: Cardiff Catalysis Institute (CCI)
Chemistry
Subjects: Q Science > QD Chemistry
Uncontrolled Keywords: Transparent conducting oxide; Band bending; Dopant solubility; Ceramic
Publisher: Elsevier
ISSN: 0169-4332
Date of Acceptance: 15 April 2015
Last Modified: 11 Sep 2020 09:14
URI: http://orca.cardiff.ac.uk/id/eprint/73882

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