A new approach for obtaining photoemission peak areas from XPS spectra at the analytical level is proposed. In standard data handling, background removal is necessary for determining the peak areas in order to obtain the atomic fraction of the elements present on outer layers. It is possible to associate an analytical function to the inelastic scattering background. This new approach uses this analytical function during curve-fitting proicedures on the first derivative of the raw derivative of the raw spectrum. The systems studied are metallic Pd and PdO in powder form and grown over metallic palladium. The results are in good agreement with theoretical hypothesis.
A new approach for curve-resolving photoemission peaks in XPS
Guido Righini
1991
Abstract
A new approach for obtaining photoemission peak areas from XPS spectra at the analytical level is proposed. In standard data handling, background removal is necessary for determining the peak areas in order to obtain the atomic fraction of the elements present on outer layers. It is possible to associate an analytical function to the inelastic scattering background. This new approach uses this analytical function during curve-fitting proicedures on the first derivative of the raw derivative of the raw spectrum. The systems studied are metallic Pd and PdO in powder form and grown over metallic palladium. The results are in good agreement with theoretical hypothesis.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
