X-ray photoelectron spectroscopic study of the oxidation and reduction of a cerium(III) oxide/cerium foil substrate |
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| Authors: | Dale A Creaser Philip G Harrison M A Morris B A Wolfindale |
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| Affiliation: | (1) Department of Chemistry, University of Nottingham, University Park, NG7 2RD Nottingham, UK;(2) ICI Chemicals and Polymers, Katalco RTE, Belasis Avenue, PO Box 1, TS23 1LB Billingham, Cleveland, UK;(3) Present address: Analytical and Physical Sciences Group, ICI Chemicals and Polymers, Research & Technology, The Heath, PO Box 8, WA7 4QD Runcorn, Cheshire, UK |
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| Abstract: | X-ray photoelectron spectroscopy has been used to examine the nature of the oxide overlayers on a passivated cerium metal foil as a function of a variety of oxidation and reduction treatments. Oxidation of a clean uncontaminated cerium(III) oxide surface is facile at room temperature and produces non-stoichiometric ceria (CeO2–x) at oxygen doses as low as 10 L. At higher doses the overlayer thickens, and after a dose of 160 L the layer depth exceeds the Ce 3d photoelectron attenuation distance of about 20 Å. High pressure treatment of the foil in oxygen (0.5 bar at RT and 473 K) produces CeO2 in a high degree of crystallographic order such that O 1s photoelectron intensities are increased above that expected from a randomly oriented powder. An attempt to reduce the CeO2 layer formed by controlled oxidation with CO (633 K, 14 h, 0.6 bar) results in the formation of a carbonated surface layer. Results following attempts to reoxidise this layer are discussed. |
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| Keywords: | Cerium oxide oxidation/reduction XPS cerium |
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