六 - 一种新型层状铁磁半导体。

VI -a New Layered Ferromagnetic Semiconductor.

作者信息

Kong Tai, Stolze Karoline, Timmons Erik I, Tao Jing, Ni Danrui, Guo Shu, Yang Zoë, Prozorov Ruslan, Cava Robert J

机构信息

Department of Chemistry, Princeton University, Princeton, NJ, 08544, USA.

Ames Laboratory, US DOE, Department of Physics and Astronomy, Iowa State University, Ames, IA, 50011, USA.

出版信息

Adv Mater. 2019 Apr;31(17):e1808074. doi: 10.1002/adma.201808074. Epub 2019 Mar 6.

DOI:10.1002/adma.201808074

PMID:30843286

Abstract

2D materials are promising candidates for next-generation electronic devices. In this regime, insulating 2D ferromagnets, which remain rare, are of special importance due to their potential for enabling new device architectures. Here the discovery of ferromagnetism is reported in a layered van der Waals semiconductor, VI , which is based on honeycomb vanadium layers separated by an iodine-iodine van der Waals gap. It has a BiI -type structure ( , No.148) at room temperature, and the experimental evidence suggests that it may undergo a subtle structural phase transition at 78 K. VI becomes ferromagnetic at 49 K, below which magneto-optical Kerr effect imaging clearly shows ferromagnetic domains, which can be manipulated by the applied external magnetic field. The optical bandgap determined by reflectance measurements is 0.6 eV, and the material is highly resistive.

摘要

二维材料是下一代电子设备的有前途的候选材料。在这种情况下，绝缘二维铁磁体仍然很少见，由于它们具有实现新器件架构的潜力，因此具有特别重要的意义。在此报告了在一种层状范德华半导体VI中发现铁磁性，该半导体基于由碘 - 碘范德华间隙隔开的蜂窝状钒层。它在室温下具有BiI型结构（，编号148），实验证据表明它可能在78 K时经历微妙的结构相变。VI在49 K时变为铁磁性，低于此温度，磁光克尔效应成像清楚地显示出铁磁畴，这些铁磁畴可以通过施加的外部磁场进行操控。通过反射率测量确定的光学带隙为0.6 eV，并且该材料具有高电阻性。

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六 - 一种新型层状铁磁半导体。

VI -a New Layered Ferromagnetic Semiconductor.

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