Publications

Revealing atomic-scale vacancy-solute interaction in nickel

Morgado, F.F. and Katnagallu, S. and Freysoldt, C. and Klaes, B. and Vurpillot, F. and Neugebauer, J. and Raabe, D. and Neumeier, S. and Gault, B. and Stephenson, L.T.

SCRIPTA MATERIALIA
Volume: 203 Pages:
DOI: 10.1016/j.scriptamat.2021.114036
Published: 2021

Abstract
It is widely accepted that the different types of crystalline imperfections, such as vacancies or dislocations, greatly influence a material's physical and mechanical properties. However, imaging individual vacancies in solids and revealing their atomic neighborhood remains one of the frontiers of microscopy and microanalysis. Here, we study a creep-deformed binary Ni-2 at.% Ta alloy. Atom probe tomography reveals a random distribution of Ta. Field ion microscopy, with contrast interpretation supported by density-functional theory and time-of-flight mass spectrometry, evidences a positive correlation of Ta with vacancies, supporting positive solute-vacancy interactions previously predicted by atomistic simulations. © 2021

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