Chemical and Electronic Structure of Buried W/Cu, W/Cr, and W/Mo Interfaces by In Situ XPS/HAXPES Auger Parameter Analysis

Claudia Cancellieri; Giacomo Lorenzin; Manura Lyanage; Vladyslav Turlo; John F. Watts; Lars P. H. Jeurgens

doi:10.1002/sia.7391

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Chemical and Electronic Structure of Buried W/Cu, W/Cr, and W/Mo Interfaces by In Situ XPS/HAXPES Auger Parameter Analysis

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Chemical and Electronic Structure of Buried W/Cu, W/Cr, and W/Mo Interfaces by In Situ XPS/HAXPES Auger Parameter Analysis

Claudia Cancellieri, Giacomo Lorenzin, Manura Lyanage, Vladyslav Turlo, John F. Watts and Lars P. H. Jeurgens

Surface and interface analysis, Vol.57(5), pp.357-367

01/05/2025

DOI: https://doi.org/10.1002/sia.7391

Abstract

Auger parameter

charge transfer

chemical state analysis

multilayers

Interfaces

ABSTRACT The changes in the local chemical state of W interfacial atoms at buried W/Cu, W/Cr, and W/Mo interfaces in multilayers and cosputtered alloys have been investigated by chemical state analysis using in situ XPS/HAXPES. An Auger parameter shift of W interfacial atoms is found to depend on the degree of chemical miscibility of the atoms at the interface being maximum for the Mo/W system. This experimental trend cannot be rationalized by the electronegativity differences between W, Cu, Cr, and Mo. The nonuniformity of the electron density at the studied interfaces with W (and possible also the structural mismatch and intermixing) should be accounted for to accurately predict the measured trend of the Auger parameter for the different interfaces with W. The experimental data are supported by ab initio calculations of the charge transfer at the metal interfaces. This work demonstrates that the Auger parameter shift provides a very sensitive probe for studying the chemical and electronic structure of buried interfaces at an atomic scale.

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Title: Chemical and Electronic Structure of Buried W/Cu, W/Cr, and W/Mo Interfaces by In Situ XPS/HAXPES Auger Parameter Analysis
Creators: Claudia Cancellieri - Swiss Federal Laboratories for Materials Science and Technology
Giacomo Lorenzin - Swiss Federal Laboratories for Materials Science and Technology
Manura Lyanage - École Polytechnique Fédérale de Lausanne
Vladyslav Turlo - Swiss Federal Laboratories for Materials Science and Technology
John F. Watts - University of Surrey, School of Mechanical Engineering Sciences
Lars P. H. Jeurgens - Swiss Federal Laboratories for Materials Science and Technology
Publication Details: Surface and interface analysis, Vol.57(5), pp.357-367
Publisher: Wiley
Number of pages: 11
Publication Date: 01/05/2025
Date accepted for publication: 27/01/2025
Grant note: Schweizerischer Nationalfonds zur Frderung der Wissenschaftlichen Forschung: 206021_182987 Swiss National Science Foundation (R'Equip program): 200021_192224 Swiss National Science Foundation (SNSF): 205602 NCCR MARVEL, a National Centre of Competence in Research - Swiss National Science FoundationBern Economic Development Agency
We acknowledge financial support from Swiss National Science Foundation (R'Equip program, Proposal No. 206021_182987). G.L. acknowledges the Swiss National Science Foundation (SNSF) under Project No. 200021_192224 for financially supporting this research. This research was supported by the NCCR MARVEL, a National Centre of Competence in Research, funded by the Swiss National Science Foundation (grant number 205602). V.T. thanks the Bern Economic Development Agency for financial support.
Identifiers: 99984466002346; WOS:001457503100003
Academic Unit: School of Mechanical Engineering Sciences
Language: English
Resource Type: Journal article

Chemical and Electronic Structure of Buried W/Cu, W/Cr, and W/Mo Interfaces by In Situ XPS/HAXPES Auger Parameter Analysis

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