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Ferroic Phases in Two-Dimensional Materials
Chemical Reviews ( IF 51.4 ) Pub Date : 2023-09-06 , DOI: 10.1021/acs.chemrev.3c00170
Ping Man 1, 2 , Lingli Huang 1, 2 , Jiong Zhao 3, 4 , Thuc Hue Ly 1, 2, 5
Affiliation  

Two-dimensional (2D) ferroics, namely ferroelectric, ferromagnetic, and ferroelastic materials, are attracting rising interest due to their fascinating physical properties and promising functional applications. A variety of 2D ferroic phases, as well as 2D multiferroics and the novel 2D ferrovalleytronics/ferrotoroidics, have been recently predicted by theory, even down to the single atomic layers. Meanwhile, some of them have already been experimentally verified. In addition to the intrinsic 2D ferroics, appropriate stacking, doping, and defects can also artificially regulate the ferroic phases of 2D materials. Correspondingly, ferroic ordering in 2D materials exhibits enormous potential for future high density memory devices, energy conversion devices, and sensing devices, among other applications. In this paper, the recent research progresses on 2D ferroic phases are comprehensively reviewed, with emphasis on chemistry and structural origin of the ferroic properties. In addition, the promising applications of the 2D ferroics for information storage, optoelectronics, and sensing are also briefly discussed. Finally, we envisioned a few possible pathways for the future 2D ferroics research and development. This comprehensive overview on the 2D ferroic phases can provide an atlas for this field and facilitate further exploration of the intriguing new materials and physical phenomena, which will generate tremendous impact on future functional materials and devices.

中文翻译:

二维材料中的铁相

二维(2D)铁磁性材料,即铁电、铁磁和铁弹性材料,由于其迷人的物理特性和有前景的功能应用而引起了越来越多的兴趣。最近通过理论预测了各种二维铁性相,以及二维多铁性和新颖的二维铁谷电子/铁磁材料,甚至预测到了单原子层。同时,其中一些已经得到实验验证。除了本征的二维铁性材料外,适当的堆叠、掺杂和缺陷也可以人为地调节二维材料的铁性相。相应地,二维材料中的铁有序在未来高密度存储器件、能量转换器件和传感器件等应用中展现出巨大的潜力。本文全面综述了二维铁性相的最新研究进展,重点介绍了铁性的化学和结构起源。此外,还简要讨论了二维铁磁性材料在信息存储、光电子学和传感方面的有前景的应用。最后,我们设想了未来二维铁磁性研究和开发的一些可能途径。对二维铁相的全面概述可以为该领域提供图谱,并有助于进一步探索有趣的新材料和物理现象,这将对未来的功能材料和器件产生巨大影响。
更新日期:2023-09-06
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