X-ray photoelectron spectroscopy studies of reactions on chromium metal and chromium oxide surfaces

Abstract

This paper reports several interrelated XPS investigations of the Cr–O system that provide additional interpretation of the Cr 2p3/2 spectra, along with more detail on the reaction mechanisms between O2 gas and H2O vapour with metallic Cr. The Cr 2p3/2 spectra of polycrystalline Cr2O3 contain multiplet structures that bear a strong resemblance to those calculated by Gupta and Sen for the free Cr3+ ion. The O/Cr ratio derived from the corrected Cr3+ and substitutional O2− intensities for all polycrystalline Cr2O3 samples was 1.5. Annealing of freshly cleaved polycrystalline Cr2O3 surfaces above 550°C resulted in a sharpening of the multiplet structures that may be caused by the increased prevalence of the (0001) Cr2O3 orientation on the surface. The slight difference in binding energies between the low energy (0001) plane and the other major crystallographic orientations could contribute to the spectral broadening that is observed for the Cr 2p3/2 spectral line shapes. The Cr 2p3/2 spectrum for Cr(OH)3 was isolated from that produced by Cr2O3 and the multiplet structure was qualitatively re-assembled for that of the hydroxide. The Cr 2p3/2 and O 1s spectra of reaction products on polycrystalline metal surfaces were analysed using the above information. The oxidic portion of the Cr 2p3/2 spectra could be cleanly separated from the metallic substrate using spectral subtraction. Reactions of either O2 gas or H2O vapour both produced a thin Cr2O3 film that was deficient in Cr3+ and, depending on the reactant, showed varying concentrations of hypo-stoichiometric Cr moieties. The surface corrected O/Cr ratios calculated for all the oxidised surfaces were 1.7. There was little evidence to support the formation of Cr(OH)3 on these surfaces. For comparison, an aqueous reaction of a Ni–Cr (20%) alloy was studied where both Cr(OH)3 and Cr2O3 components could be analysed. For this example no sub-stoichiometric Cr oxide species were produced.