Triple Junction Segregation Dominates the Stability of Nanocrystalline Alloys

AK Barnett and O Hussein and M Alghalayini and A Hinojos and JE II Nathaniel and DL Medlin and K Hattar and BL Boyce and F Abdeljawad, NANO LETTERS, 24, 9627-9634 (2024).

DOI: 10.1021/acs.nanolett.4c02395

We present large-scale atomistic simulations that reveal triple junction (TJ) segregation in Pt-Au nanocrystalline alloys in agreement with experimental observations. While existing studies suggest grain boundary solute segregation as a route to thermally stabilize nanocrystalline materials with respect to grain coarsening, here we quantitatively show that it is specifically the segregation to TJs that dominates the observed stability of these alloys. Our results reveal that doping the TJs renders them immobile, thereby locking the grain boundary network and hindering its evolution. In dilute alloys, it is shown that grain boundary and TJ segregation are not as effective in mitigating grain coarsening, as the solute content is not sufficient to dope and pin all grain boundaries and TJs. Our work highlights the need to account for TJ segregation effects in order to understand and predict the evolution of nanocrystalline alloys under extreme environments.

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