Stacking-dependent interlayer magnetic interactions in CrSe2

Xinlong Yang; Xiaoyang Xie; Wenqi Yang; Xiaohui Wang; Menglei Li; Fawei Zheng

doi:10.1088/1361-6528/ad4156

Stacking-dependent interlayer magnetic interactions in CrSe₂

Xinlong Yang, Xiaoyang Xie, Wenqi Yang, Xiaohui Wang^*, Menglei Li, Fawei Zheng

^*Corresponding author for this work

School of Physics

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Recently, CrSe₂, a new ferromagnetic van der Waals two-dimensional material, was discovered to be highly stable under ambient conditions, making it an attractive candidate for fundamental research and potential device applications. Here, we study the interlayer interactions of bilayer CrSe₂ using first-principles calculations. We demonstrate that the interlayer interaction depends on the stacking structure. The AA and AB stackings exhibit antiferromagnetic (AFM) interlayer interactions, while the AC stacking exhibits ferromagnetic (FM) interlayer interaction. Furthermore, the interlayer interaction can be further tuned by tensile strain and charge doping. Specifically, under large tensile strain, most stacking structures exhibit FM interlayer interactions. Conversely, under heavy electron doping, all stacking structures exhibit AFM interlayer interactions.

Original language	English
Article number	305709
Journal	Nanotechnology
Volume	35
Issue number	30
DOIs	https://doi.org/10.1088/1361-6528/ad4156
Publication status	Published - 22 Jul 2024

Keywords

CrSe bilayer
interlayer magnetic interaction
the first-principles study
two-dimensional magnet

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10.1088/1361-6528/ad4156

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abstract = "Recently, CrSe2, a new ferromagnetic van der Waals two-dimensional material, was discovered to be highly stable under ambient conditions, making it an attractive candidate for fundamental research and potential device applications. Here, we study the interlayer interactions of bilayer CrSe2 using first-principles calculations. We demonstrate that the interlayer interaction depends on the stacking structure. The AA and AB stackings exhibit antiferromagnetic (AFM) interlayer interactions, while the AC stacking exhibits ferromagnetic (FM) interlayer interaction. Furthermore, the interlayer interaction can be further tuned by tensile strain and charge doping. Specifically, under large tensile strain, most stacking structures exhibit FM interlayer interactions. Conversely, under heavy electron doping, all stacking structures exhibit AFM interlayer interactions.",

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AU - Yang, Xinlong

AU - Xie, Xiaoyang

AU - Yang, Wenqi

AU - Wang, Xiaohui

AU - Li, Menglei

AU - Zheng, Fawei

PY - 2024/7/22

Y1 - 2024/7/22

N2 - Recently, CrSe2, a new ferromagnetic van der Waals two-dimensional material, was discovered to be highly stable under ambient conditions, making it an attractive candidate for fundamental research and potential device applications. Here, we study the interlayer interactions of bilayer CrSe2 using first-principles calculations. We demonstrate that the interlayer interaction depends on the stacking structure. The AA and AB stackings exhibit antiferromagnetic (AFM) interlayer interactions, while the AC stacking exhibits ferromagnetic (FM) interlayer interaction. Furthermore, the interlayer interaction can be further tuned by tensile strain and charge doping. Specifically, under large tensile strain, most stacking structures exhibit FM interlayer interactions. Conversely, under heavy electron doping, all stacking structures exhibit AFM interlayer interactions.

AB - Recently, CrSe2, a new ferromagnetic van der Waals two-dimensional material, was discovered to be highly stable under ambient conditions, making it an attractive candidate for fundamental research and potential device applications. Here, we study the interlayer interactions of bilayer CrSe2 using first-principles calculations. We demonstrate that the interlayer interaction depends on the stacking structure. The AA and AB stackings exhibit antiferromagnetic (AFM) interlayer interactions, while the AC stacking exhibits ferromagnetic (FM) interlayer interaction. Furthermore, the interlayer interaction can be further tuned by tensile strain and charge doping. Specifically, under large tensile strain, most stacking structures exhibit FM interlayer interactions. Conversely, under heavy electron doping, all stacking structures exhibit AFM interlayer interactions.

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KW - the first-principles study

KW - two-dimensional magnet

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Stacking-dependent interlayer magnetic interactions in CrSe₂

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