Phase transitions in 2D materials

IF 86.2 1区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Nature Reviews Materials Pub Date : 2021-04-09 DOI:10.1038/s41578-021-00304-0

Wenbin Li, Xiaofeng Qian, Ju Li

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引用次数: 140

Abstract

The discovery and control of new phases of matter is a central endeavour in materials research. The emergence of atomically thin 2D materials, such as transition-metal dichalcogenides and monochalcogenides, has allowed the study of diffusive, displacive and quantum phase transitions in 2D. In this Review, we discuss the thermodynamic and kinetic features of 2D phase transitions arising from dimensionality confinement, elasticity, electrostatics, defects and chemistry unique to 2D materials. We highlight polymorphic, ferroic and high-temperature diffusive phase changes, and examine the technological potential of controlled 2D phase transitions. Finally, we give an outlook to future opportunities in the study and applications of 2D phase transitions, and identify key challenges that remain to be addressed. Phase transformations in 2D materials have distinct kinetic and thermodynamic features, resulting from their reduced dimensionality and unique interactions. This Review discusses the properties of phase transitions and defects in 2D materials, and examines technological applications and challenges in the study of 2D phase transitions.

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二维材料中的相变

发现和控制物质的新相是材料研究的一项核心工作。原子薄二维材料（如过渡金属二钴化物和单钴化物）的出现，使人们得以研究二维中的扩散、位移和量子相变。在这篇综述中，我们将讨论二维相变的热力学和动力学特征，这些特征源于二维材料特有的维度约束、弹性、静电、缺陷和化学性质。我们重点介绍了多晶相变、铁相变和高温扩散相变，并探讨了受控二维相变的技术潜力。最后，我们展望了二维相变研究和应用的未来机遇，并指出了有待解决的关键挑战。二维材料中的相变具有独特的动力学和热力学特征，这源于它们的尺寸缩小和独特的相互作用。本综述讨论了二维材料中相变和缺陷的特性，并探讨了二维相变研究中的技术应用和挑战。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Nature Reviews Materials Materials Science-Biomaterials

CiteScore

119.40

自引率

0.40%

发文量

107

期刊介绍： Nature Reviews Materials is an online-only journal that is published weekly. It covers a wide range of scientific disciplines within materials science. The journal includes Reviews, Perspectives, and Comments. Nature Reviews Materials focuses on various aspects of materials science, including the making, measuring, modelling, and manufacturing of materials. It examines the entire process of materials science, from laboratory discovery to the development of functional devices.