Issue 22, 2025, Issue in Progress
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Thermal behavior in FeCuCrCoNi high entropy alloy nanoparticles: an atomistic approach

Max Ramírez, ORCID logo a   Alejandro Prada, ORCID logo c   Fiorella R. Roco, ORCID logo c   Krishna Queirolo,c   Walter Schmidt, ORCID logo c   Fernando Corvacho,d   Samuel E. Baltazar, ORCID logo bd   José Rogan ORCID logo a  and  Felipe J. Valencia ORCID logo *bce  

* Corresponding authors

a Departamento de Física, Facultad de Ciencias, Universidad de Chile, Casilla 653, Santiago 7800024, Chile

b Centro para el Desarrollo de la Nanociencia y la Nanotecnología, CEDENNA, Avda. Ecuador 3493, Santiago 9170124, Chile
E-mail: felipe.valenciad@gmail.com

c Departamento de Computación e Industrias, Facultad de Ciencias de la Ingeniería, Universidad Católica del Maule, Talca 3480112, Chile

d Departamento de Física, Facultad de Ciencia, Universidad de Santiago de Chile, USACH, Chile

e Centro de Innovación en Ingeniería Aplicada, CIIA, Facultad de Ciencias de la Ingeniería, Universidad Católica del Maule, Talca, Chile

Abstract

High Entropy Alloy nanoparticles (HEA NPs) have been synthetized because they are promising materials to improve nanoscale performance. However, little theoretical study has been carried out regarding the thermal stability of HEA NPs. Here, atomistic simulations have been conducted to study the thermal response of FeCuCrCoNi HEA NPs as a function of size. Atomistic modeling shows that melting point can be explained in terms of a two-phase model without the contribution of surface melting as is predicted through liquid shell models. On the other hand, it is observed that premelting starts with a preferential mobility of Fe and Cu atoms. Simulations show that due to the enhanced diffusion there is no evidence of precipitation or clustering during the thermal load, which is independent of the HEA NP size.

Graphical abstract: Thermal behavior in FeCuCrCoNi high entropy alloy nanoparticles: an atomistic approach

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Article information

DOI
https://doi.org/10.1039/D4RA08595G
Article type
Paper
Submitted
06 Dec 2024
Accepted
15 Apr 2025
First published
28 May 2025
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2025,15, 17695-17705

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Thermal behavior in FeCuCrCoNi high entropy alloy nanoparticles: an atomistic approach

M. Ramírez, A. Prada, F. R. Roco, K. Queirolo, W. Schmidt, F. Corvacho, S. E. Baltazar, J. Rogan and F. J. Valencia, RSC Adv., 2025, 15, 17695 DOI: 10.1039/D4RA08595G

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