Anomalous liquids on a new landscape: From water to phase-change materials

Q1 Physics and Astronomy Journal of Non-Crystalline Solids: X Pub Date : 2022-06-01 DOI:10.1016/j.nocx.2022.100094

Shuai Wei

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Abstract

A liquid that is cooled below its melting temperature, referred to as a supercooled liquid, can solidify into an amorphous rigid state (i.e., glass), if cooling is fast enough and crystallization is avoided. The phenomenology of supercooled liquids has been in general established. However, there are pronounced exceptions (e.g., water) which do not fall into the class of ‘normal’ liquids but exhibit a transition behavior in their liquid states. The latest advances connect the unusual aspect of liquids to the properties of phase-change materials (PCMs) that are the basis for non-volatile memory and neuromorphic technologies. In this article, we review the liquid anomalies in the alloys based on group-IV, V, VI elements including technologically important compositions. Their different behaviors are rationalized in terms of liquid–liquid (metal-semiconductor, and fragile-strong) transitions. We discuss their implications for understanding unusual phase switching behaviors in these materials. Lastly, unsolved problems and new opportunities are outlined.

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新景观上的异常液体：从水到相变材料

冷却到熔点以下的液体，称为过冷液体，如果冷却速度足够快并且避免结晶，则可以固化成无定形刚性状态(即玻璃)。过冷液体的现象学已基本建立。然而，也有明显的例外(例如，水)，它们不属于“正常”液体的类别，但在液体状态下表现出过渡行为。最新的进展将液体的不寻常方面与相变材料(PCMs)的特性联系起来，相变材料是非易失性存储器和神经形态技术的基础。本文综述了基于iv族、V族、VI族元素(包括技术上重要的成分)的合金液体异常。它们的不同行为在液-液(金属-半导体，脆弱-强)转变方面是合理的。我们讨论了它们对理解这些材料中不寻常的相开关行为的意义。最后，概述了尚未解决的问题和新的机遇。

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