XPS Study of Multilayer Multicomponent Films
Journal article, 2018
In the paper, we propose an XPS-based quantitative method for depth profile analysis of chemical and phase composition of multi-component and multi-layer samples. The method includes: (1) new method for background subtraction accounting for depth non-uniformity of electron energy losses; (2) new method for photoelectron line decomposition into elementary peaks, which accounts for physical nature of the decomposition parameters; (3) joint solving of both background subtraction and photoelectron line decomposition problems; (4) criterion for assessing of line decomposition accuracy; (5) simple formula for layer thickness extraction for multi-element and multi-layer sample. We apply the developed method for analysis of multilayer niobium oxide and sub-oxide films before and in course of ion milling.
XPS background subtracting
XPS
Chemical and phase analysis
XPS line decomposition
Depth profiling
Niobium oxide
Author
Alexander Lubenchenko
National Research University Moscow Power Engineering Institute
Alexander Batrakov
National Research University Moscow Power Engineering Institute
Alexey Pavolotskiy
Chalmers, Space, Earth and Environment, Advanced Receiver Development
Olga Lubenchenko
National Research University Moscow Power Engineering Institute
Dmitriy Ivanov
National Research University Moscow Power Engineering Institute
Applied Surface Science
0169-4332 (ISSN)
Vol. 427 A 711-721Subject Categories
Other Materials Engineering
Nano Technology
Condensed Matter Physics
DOI
10.1016/j.apsusc.2017.07.256