Sukai Teng scite author profile

The electronic band structure and valley splitting of the WSe2/NiCl2 heterostructure have been investigated by density functional theory and Berry curvature calculations. We demonstrate that the valley polarization of monolayer WSe2 is induced due to the magnetic proximity effect caused by the single layer of ferromagnetic NiCl2. The magnitude of valley splitting depends on the stacking configurations of WSe2/NiCl2, and the maximum value of valley splitting reaches −11.87 meV. Large valley splitting can be achieved by adjusting the layer spacing and constructing a NiCl2/WSe2/NiCl2 heterojunction with Ni spins arranged in parallel between two NiCl2 sheets. The valley-contrasting Berry curvature between the K and K′ valleys suggests that the WSe2/NiCl2-based heterostructure could potentially be used as a valleytronic device to realize the valley-polarized anomalous Hall effect as both spin and valley filter.

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Design of half-heusler thermoelectric compound TiFe0.5Ni0.5Sb with special quasi-random structure using 18-electron rule

Liu

Fang

et al. 2021

Journal of Alloys and Compounds

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Improved thermoelectric performance of p-doped half-Heusler Ti_0.5Zr_0.5CoSb_0.5P_0.5, Ti_0.5Hf_0.5CoSb_0.5P_0.5, and Zr_0.5Hf_0.5CoSb_0.5P_0.5 compounds

Mao

et al. 2019

Mater. Res. Express

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Biaxial strain induced band transition and valley–spin coupling in the ferromagnetic semiconducting WSe₂/1T-FeCl₂ heterostructure

Mao

et al. 2019

J. Mater. Chem. C

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Sukai Teng

Improved thermoelectric properties of doped A0.5B0.5NiSn (A, B = Ti, Zr, Hf) with a special quasirandom structure

Manipulation of valley splitting for the WSe₂/NiCl₂ heterostructure by adjusting the interlayer spacing and constructing a NiCl₂/WSe₂/NiCl₂ heterojunction

Design of half-heusler thermoelectric compound TiFe0.5Ni0.5Sb with special quasi-random structure using 18-electron rule

Improved thermoelectric performance of p-doped half-Heusler Ti_0.5Zr_0.5CoSb_0.5P_0.5, Ti_0.5Hf_0.5CoSb_0.5P_0.5, and Zr_0.5Hf_0.5CoSb_0.5P_0.5 compounds

Biaxial strain induced band transition and valley–spin coupling in the ferromagnetic semiconducting WSe₂/1T-FeCl₂ heterostructure

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Sukai Teng

Improved thermoelectric properties of doped A0.5B0.5NiSn (A, B = Ti, Zr, Hf) with a special quasirandom structure

Manipulation of valley splitting for the WSe2/NiCl2 heterostructure by adjusting the interlayer spacing and constructing a NiCl2/WSe2/NiCl2 heterojunction

Design of half-heusler thermoelectric compound TiFe0.5Ni0.5Sb with special quasi-random structure using 18-electron rule

Improved thermoelectric performance of p-doped half-Heusler Ti0.5Zr0.5CoSb0.5P0.5, Ti0.5Hf0.5CoSb0.5P0.5, and Zr0.5Hf0.5CoSb0.5P0.5 compounds

Biaxial strain induced band transition and valley–spin coupling in the ferromagnetic semiconducting WSe2/1T-FeCl2 heterostructure

Contact Info

Product

Resources

About

Manipulation of valley splitting for the WSe₂/NiCl₂ heterostructure by adjusting the interlayer spacing and constructing a NiCl₂/WSe₂/NiCl₂ heterojunction

Improved thermoelectric performance of p-doped half-Heusler Ti_0.5Zr_0.5CoSb_0.5P_0.5, Ti_0.5Hf_0.5CoSb_0.5P_0.5, and Zr_0.5Hf_0.5CoSb_0.5P_0.5 compounds

Biaxial strain induced band transition and valley–spin coupling in the ferromagnetic semiconducting WSe₂/1T-FeCl₂ heterostructure