Volume 235, 2022

Interplay of structural and dynamical heterogeneity in the nucleation mechanism in nickel

Abstract

Gaining a fundamental understanding of crystal nucleation processes in metal alloys is crucial for the development and design of high-performance materials with targeted properties. Yet, crystallization is a complex non-equilibrium process and, despite having been studied for decades, the microscopic aspects that govern the crystallization mechanism of a material remain elusive to date. Recent evidence shows that the spatial heterogeneity in the supercooled liquid, characterised by extended regions with distinctive mobility and order, may be a key microscopic factor that determines the mechanism of crystal nucleation. These findings have advanced our view of the fundamental nature of crystallization, as most research has assumed that crystal clusters nucleate from random fluctuations in a ‘homogeneous’ liquid. Here, by analysing transition path sampling trajectories, we show that dynamical heterogeneity plays a key role in the mechanism of crystal nucleation in an elemental metal, nickel. Our results demonstrate that crystallization occurs preferentially in regions of low mobility in the supercooled liquid, evidencing the collective dynamical nature of crystal nucleation in Ni. In addition, our results show that low mobility regions form before and spatially overlap with pre-ordered domains that act as precursors to the crystal phase that subsequently emerges. Our results show a clear link between dynamical and structural heterogeneity in the supercooled liquid and its impact on the nucleation mechanism, revealing microscopic descriptors that could pave a novel way to control crystallization processes in metals.

Graphical abstract: Interplay of structural and dynamical heterogeneity in the nucleation mechanism in nickel

Associated articles

Article information

Article type
Paper
Submitted
24 nov 2021
Accepted
10 des 2021
First published
13 des 2021

Faraday Discuss., 2022,235, 406-415

Interplay of structural and dynamical heterogeneity in the nucleation mechanism in nickel

G. Díaz Leines, A. Michaelides and J. Rogal, Faraday Discuss., 2022, 235, 406 DOI: 10.1039/D1FD00099C

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