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Non-destructive depth compositional profiles by XPS peak-shape analysis |
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| Authors: | M C López-Santos F Yubero J P Espinós A R González-Elipe |
| Institution: | 1. Instituto de Ciencia de Materiales de Sevilla, C/ Américo Vespucio 49, 41092, Sevilla, Spain |
| Abstract: | The measured peak shape and intensity of the photoemitted signal in X-ray photoelectron spectroscopy (XPS) experiments (elastic and inelastic parts included) are strongly correlated, through electron-transport theory, with the depth distribution of photoelectron emitters within the analyzed surface. This is the basis of so-called XPS peak-shape analysis (also known as the Tougaard method) for non-destructive determination of compositional in-depth (up to 6–8 nm) profiles. This review describes the theoretical basis and reliability of this procedure for quantifying amounts and distributions of material within a surface. The possibilities of this kind of analysis are illustrated with several case examples related to the study of the initial steps of thin-film growth and the modifications induced in polymer surfaces after plasma treatments. Photoemitted spectra and in-depth concentration profiles (blue: oxygen; orange: carbon), obtained by means of XPS peak shape analysis, of a PET plasma activated surface. The shown topography corresponds to an atomic force microscopy image of the treated surface. |
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