Iron oxyhalides monolayers with excellent optical anisotropic properties and large anisotropic carrier mobility

Developing two-dimensional layered materials is highly desirable for nanoscale device applications. Antiferromagnetic materials have attracted considerable attention through their absence of production of parasitic stray fields, ultrafast dynamics, and the generation of large magnetotransport effect...

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Published in:Journal of alloys and compounds 2023-07, Vol.949, p.169832, Article 169832
Main Authors: Lu, Zhefeng, Dai, Wei, Gu, Xiaowei, Diao, Yuming, Liu, Dayong, Fu, Huailiang, Dong, Zhengchao, Zhong, Chonggui
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Language:English
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Antiferromagnetic semiconductors
First-principles method
Large carrier mobility
Optical property
Two-dimensional
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cited_by cdi_FETCH-LOGICAL-c309t-9d8acbfa72a51144ea6b28a6f46f54291df34af7f8a60bfc9a5d0085bdba500c3
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container_start_page 169832
container_title Journal of alloys and compounds
container_volume 949
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Dai, Wei
Gu, Xiaowei
Diao, Yuming
Liu, Dayong
Fu, Huailiang
Dong, Zhengchao
Zhong, Chonggui
description Developing two-dimensional layered materials is highly desirable for nanoscale device applications. Antiferromagnetic materials have attracted considerable attention through their absence of production of parasitic stray fields, ultrafast dynamics, and the generation of large magnetotransport effects. Here, based on first-principles calculations, we demonstrate a series of promising two-dimensional semiconductors in the family of iron oxyhalides FeOX (X = F, Cl, Br, I) with antiferromagnetism, anisotropic optical properties and large carrier mobility. Combined with appropriate gaps, this renders FeOX monolayers with high absorption coefficient up to 3.90×105cm−1 in the visible region. In addition, due to their large band dispersion, FeOX monolayers are also found to harbor considerably high carrier mobilities, especially for FeOBr (6.84×103cm2V-1s-1), suggesting their enormous potential for optoelectronic fields. All of these discoveries make these FeOX monolayers compelling materials for next-generation nanoscale photovoltaic device. •Optical and transport properties of monolayer iron oxyhalide semiconductor with intrinsic antiferromagnetism are revealed.•For the incident light polarized in three directions, FeOX monolayers exhibit a noticeable anisotropic behavior.•Four iron oxyhalide FeOX monolayers possess high absorption coefficient up to 105cm−1 in the visible region.•FeOX monolayers harbor high carrier mobilities, especially FeOBr (6.84×103cm2V-1s-1), six times that of black phosphorene.
doi_str_mv 10.1016/j.jallcom.2023.169832
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subjects Antiferromagnetic semiconductors
First-principles method
Large carrier mobility
Optical property
Two-dimensional
title Iron oxyhalides monolayers with excellent optical anisotropic properties and large anisotropic carrier mobility
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