Liehong Liao scite author profile

Liehong Liao

4Publications

1Citation Statement Received

77Citation Statements Given

How they've been cited

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165

Affiliations

Hangzhou Dianzi University

Publications

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Valley-dependent transport in strain engineering graphene heterojunctions

et al. 2022

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We study the effect of the strain on the band structure and the valley-dependent transport property of graphene heterojunctions. It is found that valley-dependent separation of electrons can be achieved by utilizing the strain and on-site energies. In the presence of the strain, the values of the transmission can be effectively adjusted by changing the strengths of the strain, while the transport angle basically keeps unchanged. When an extra on-site energy is simultaneously applied to the central scattering region, not only are the electrons of valleys K and K' separated into two distinct transmission lobes in opposite transverse directions, but the transport angles of two valleys can be significantly changed. Therefore, one can realize an effective modulation of valley-dependent transport by changing the strength and stretch angle of the strain and on-site energies, which can be exploited for graphene-based valleytronics devices.

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Switching modulation of spin transport in ferromagnetic tetragonal silicene

Liao

Ding

Wan

et al. 2023

Physica E: Low-dimensional Systems and Nanostructures

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Disorder-induced phase transitions in double Weyl semimetals

et al. 2022

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Switching modulation of spin transport in ferromagnetic tetragonal silicene

Liao¹,

Ding²,

Wan³

et al. 2022

Preprint

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We study the band structure and transport properties of ferromagnetic tetragonal silicene nanoribbons by using the non-equilibrium Green's function method. The band structure and spin-dependent conductance are discussed under the combined effect of the external electric field, potential energy, exchange field and the spinorbit coupling. One can easily realize a phase transition from a semimetallic to a semiconducting state by changing the transverse width of the nanoribbon. Separation of spin-dependent conductances arises from the effect of exchange field and the spin-orbit coupling, while zero-conductance behaviors exhibit spin-dependent band gaps induced by the electric field. We propose a device configuration of four-terminal tetragonal silicene nanoribbon with two central channels. It is found that spin current can be controlled by utilizing two switches.The switch with a high potential barrier can block electrons flowing from the central scattering region into other terminals. Interestingly, applying only one switch can realize spin-dependent zero conductance and large spin polarization. Two switches can provide multiple operations for controlling spin-dependent transport properties. The two-channel ferromagnetic tetragonal silicene nanoribbon can realize an effective separation of spin current, which may be a potential candidate for spintronic devices.

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Liehong Liao

Valley-dependent transport in strain engineering graphene heterojunctions

Switching modulation of spin transport in ferromagnetic tetragonal silicene

Disorder-induced phase transitions in double Weyl semimetals

Switching modulation of spin transport in ferromagnetic tetragonal silicene

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