Robust half metallic properties in two-dimensional transition metal borocarbides: TMBC (TM = 3<i>d</i> transition metals)

Duan, Yuanyuan; Sun, Yi; Xu, Xiaokang; Qureshi, Ali Hamza; Liu, Yujie; Niu, Xianghong; Liu, Yongjun; Yao, Xiaojing; Zhang, Xiuyun

doi:10.1063/5.0197925

Applied Physics Letters

2024

DOI: 10.1063/5.0197925

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Robust half metallic properties in two-dimensional transition metal borocarbides: TMBC (TM = 3d transition metals)

Yuanyuan Duan,

Yi Sun,

Xiaokang Xu

et al.

Abstract: Two-dimensional transition metal borocarbides with intrinsic magnetism have garnered significant research attention due to their potential applications in spintronics. Using density functional theory calculations, we designed a type of transition metal borocarbides with two distinct configurations, TMBC-Is and TMBC-IIs (TM = V–Co), and explored their electronic and magnetic properties. Our results demonstrate that all the studied systems exhibit both thermal and kinetic stability. Notably, four systems of MnBC… Show more

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Emerging Half-Metallic Property in the Kagome Lattice Ti₃Te₅ Monolayer

Liu,

Duan,

et al. 2024

J. Phys. Chem. C

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Two-dimensional materials with intrinsic magnetism have provoked comprehensive attention due to their potential application in spintronics. In this work, based on density functional theory calculations, we report two stable Kagome latticed monolayers, Ti 3 X 5 (X = Te, Bi), consisting of three titanium atoms and five Te (Bi) atoms per unit cell, with intrinsic magnetism and out-of-plane magnetic easy axis. Both Ti 3 X 5 systems are found to have high thermodynamical and mechanical stability; meanwhile, they exhibit mechanical isotropy reflected by Young's modulus and Poisson's ratio. Spin-polarized calculations show that the Ti 3 Te 5 monolayer is a robust ferromagnetic (FM) half-metal (HM) with the respective Curie temperature (T C ) of 72 K, while the Ti 3 Bi 5 monolayer is an antiferromagnetic (AFM) metal with Neél temperatures (T N ) as high as 132 K. Furthermore, the magnetism of the Ti 3 Te 5 monolayer is found to be sensitive to the external strains, in which the FM HM to AFM metal transition occurs when applying 2% compressive strain. Interestingly, the out-of-plane to in-plane magnetic easy axis transition and higher than room temperature T C are achieved from 3% to 6% tensile strains. Our results may provide new clues for searching and designing two-dimensional room temperature FM half-metals.

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Emerging Half-Metallic Property in the Kagome Lattice Ti₃Te₅ Monolayer

Liu,

Duan,

et al. 2024

J. Phys. Chem. C

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show abstract

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Robust half metallic properties in two-dimensional transition metal borocarbides: TMBC (TM = 3d transition metals)

Cited by 1 publication

References 41 publications

Emerging Half-Metallic Property in the Kagome Lattice Ti₃Te₅ Monolayer

Emerging Half-Metallic Property in the Kagome Lattice Ti₃Te₅ Monolayer

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Robust half metallic properties in two-dimensional transition metal borocarbides: TMBC (TM = 3d transition metals)

Cited by 1 publication

References 41 publications

Emerging Half-Metallic Property in the Kagome Lattice Ti3Te5 Monolayer

Emerging Half-Metallic Property in the Kagome Lattice Ti3Te5 Monolayer

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Emerging Half-Metallic Property in the Kagome Lattice Ti₃Te₅ Monolayer

Emerging Half-Metallic Property in the Kagome Lattice Ti₃Te₅ Monolayer