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Constructing phase diagrams for defects by correlated atomic-scale characterization

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arxiv 2303.09465 v2 pith:HLAMRWNJ submitted 2023-03-16 cond-mat.mtrl-sci

Constructing phase diagrams for defects by correlated atomic-scale characterization

classification cond-mat.mtrl-sci
keywords phasedefectsdiagramstransformationschemicalmaterialsalloyingatomic-scale
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Phase transformations and crystallographic defects are two essential tools to drive innovations in materials. Bulk materials design via tuning chemical compositions has been systematized using phase diagrams. We show here that the same thermodynamic concept can be applied to understand the chemistry at defects. We present a combined experimental and modelling approach to scope and build phase diagrams for defects. The discovery was enabled by triggering phase transformations of individual defects through local alloying, and sequentially imaging the structural and chemical changes using atomic-resolution scanning transmission electron microscopy. By observing atomic-scale phase transformations of a Mg grain boundary through Ga alloying, we exemplified the method to construct a grain boundary phase diagram using ab initio simulations and thermodynamic principles. The methodology enables a systematic development of defect phase diagrams to propel a new paradigm for materials design utilizing chemical complexity and phase transformations at defects.

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