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Bargiela, P., Fernandez, V., Ravisy, W., Morgan, D., Richard-Plouet, M., Fairley, N. & Baltrusaitis, J. (2024) Surface Analysis Insight Note: Observations relating to photoemission peak shapes, oxidation state, and chemistry of titanium oxide films. Surface and Interface Analysis,
Added by: Richard Baschera (2024-01-19 15:14:15) Last edited by: Richard Baschera (2024-01-19 15:15:54) |
| Type de référence: Article DOI: 10.1002/sia.7283 Numéro d'identification (ISBN etc.): 1096-9918 Clé BibTeX: Bargiela2024 Voir tous les détails bibliographiques  |
Catégories: IMN, INTERNATIONAL, PCM Mots-clés: component spectra, linear least squares, oxidation state, Titania, XPS Créateurs: Baltrusaitis, Bargiela, Fairley, Fernandez, Morgan, Ravisy, Richard-Plouet Collection: Surface and Interface Analysis |
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| Liens URLs https://onlinelibr ... s/10.1002/sia.7283 |
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It is common practice to describe the coordination of metal atoms in a binding configuration with their nearest neighbors in terms of oxidation state, a measure by which the number of electrons redistributed between atoms forming chemical bonds. In XPS terms, change to an oxidation state is commonly inferred by correlating photoemission signal with binding energy. The assumption, when classifying photoemission signals into distinct spectral shapes, is that a distribution of intensities shifted to lower binding energy is evidence of a reduction in oxidation state. In this Insight note, we raise the prospect that changes in photoemission peak shape may occur without obvious changes, determined by XPS in stoichiometry for a material. It is well known that TiO2 measured by XPS yields reproducible Ti 2p photoemission peaks. However, on exposing TiO2 to ion beams, Ti 2p photoemission evolves to complex distributions in intensity, which are particularly difficult to analyze by traditional fitting of bell-shaped curves to these data. For these reasons, in this Insight note, a thin film of TiO2 deposited on a silicon substrate is chosen for analysis by XPS and linear algebraic techniques. Alterations in spectral shapes created from modified TiO2, which might be interpreted as the change in oxidation state, are assessed in terms of relative proportions of titanium to oxygen. It is found through detailed analysis of spectra that quantification by XPS, using procedures routinely used in practice, is not in accord with the typical interpretations of photoemission shapes. The data processing methods used and results presented in this work are of particular relevance to elucidating fundamental phenomena governing the surface evolution of materials-enabled energy processes where cyclic/non-steady usage changes the nature of bonding, especially in the presence of contaminants.
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_eprint: https://analyticalsciencejournals.onlinelibrary.wiley.com/doi/pdf/10.1002/sia.7283
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