Your search keyword '"QINGYUN WU"' showing total 6 results

1. Highly tunable electronic properties in γ-XSe (X = Ge and Sn) bilayer with strain and electric field

Author

Qingyun Wu and Lay Kee Ang

Subjects

two dimensional material, bilayer, band gap engineering, electric field, strain, Chemical technology, TP1-1185

Abstract

The recent experimental synthesis of the monolayer γ -GeSe, characterized by its unique Mexican-hat band dispersion, has attracted considerable research interest. However, the exploration of band gap engineering in bilayer γ -GeSe and γ -SnSe through the application of strain and electric fields remains under-investigated. In this study, we demonstrate that both strain and electric fields are effective methods for band gap engineering in bilayer γ -GeSe and γ -SnSe. We have discovered that strain can not only tune the band gap but also induce a transition from an indirect to a direct band gap. Furthermore, it is observed that the band gap of bilayer γ -GeSe and γ -SnSe can be modulated by an electric field, potentially leading to a transition from semiconductor to metal. Our findings suggest that band gap engineering via strain and electric fields is a promising approach for designing nanoelectronic and optoelectronic devices based on bilayer γ -GeSe and γ -SnSe.

Published

2024

2. Magnetocrystalline anisotropy and its electric-field-assisted switching of Heusler-compound-based perpendicular magnetic tunnel junctions

Author

Zhaoqiang Bai, Lei Shen, Yongqing Cai, Qingyun Wu, Minggang Zeng, Guchang Han, and Yuan Ping Feng

Subjects

Heusler alloy, magnetic crystalline anisotropy, magnetoelectric effect, magnetic tunnel junction, non-collinear spin transport, 85.75.Dd, Science, Physics, QC1-999

Abstract

Employing density functional theory combined with the non-equilibrium Greenʼs function formalism, we systematically investigate the structural, magnetic and magnetoelectric properties of the Co _2 FeAl(CFA)/MgO interface, as well as the spin-dependent transport characteristics of the CFA/MgO/CFA perpendicular magnetic tunnel junctions (p-MTJs). We find that the structure of the CFA/MgO interface with the oxygen-top FeAl termination has high thermal stability, which is protected by the thermodynamic equilibrium limit. Furthermore, this structure is found to have perpendicular magnetocrystalline anisotropy (MCA). Giant electric-field-assisted modifications of this interfacial MCA through magnetoelectric coupling are demonstrated with an MCA coefficient of up to 10 ^−7 erg V ^−1 cm. In addition, our non-collinear spin transport calculations of the CFA/MgO/CFA p-MTJ predict a good magnetoresistance performance of the device.

Published

2014

3. Tunable band alignment in boron carbon nitride and blue phosphorene van der Waals heterostructure

Author

Liemao Cao, Lay Kee Ang, Qingyun Wu, and Yee Sin Ang

Subjects

Materials science, business.industry, chemistry.chemical_element, Heterojunction, chemistry.chemical_compound, symbols.namesake, Phosphorene, chemistry, symbols, First principle, Optoelectronics, van der Waals force, Boron, business, Carbon nitride

Abstract

The hybrid monolayer of boron nitride and graphene, namely the BC x N monolayer, has been recently revealed as a direct bandgap semiconductor with exceptional thermal, mechanical and optical properties. The integration of such monolayer with other 2D materials into a van der Waals heterostructure (VDWH), however, remains largely unexplored thus far. In this work, we investigate the electronic and structural properties of a new class of VDWH obtained via the vertical stacking of BC x N (x = 2, 6) and blue phosphorene monolayers. By using first-principle density functional theory (DFT) simulation, we show that BC x N couples to the blue phosphorene layer via weak van der Waals interactions and exhibits a type-II band alignment which is beneficial for electron-hole pair separation in photodetection and solar cell applications. Intriguingly, changing the interlayer separation induces a indirect-to-direct band gap transition which changes the band alignment types of the VDWH. The interlayer separation, which can be readily tuned via a vertical strain, thus provides a useful tuning knob for switching the heterostructures between type-I and type-II VDWHs. Our findings reveals the BC x N-based VDWH as a versatile material platform with tunable band alignments, thus opening a route towards novel VDWH-based optoelectronic devices.

Published

2020

4. Superior and tunable gas sensing properties of Janus PtSSe monolayer

Author

Qingyun Wu, Lay Kee Ang, Liemao Cao, and Yee Sin Ang

Subjects

Adsorption, Materials science, Chemical physics, Electric field, Monolayer, Density of states, Molecule, Charge (physics), Janus

Abstract

Inspired by superior gas sensing properties of PtSe2 monolayer and tunable gas sensing properties of Janus MoSSe monolayer, we study the gas sensing properties of the Janus PtSSe monolayer for CO, CO2, H2O, NH3, NO and NO2 gas molecules using first-principles density functional calculations. We calculate adsorption height and adsorption energies of the gas molecules to assess the adsorption strength of the gas molecules. Then the charge transfer from PtSSe to gas molecules is evaluated. We also investigate the effects of strain and external electric field on the gas sensing properties of Janus PtSSe monolayer. We finally reveal the origin of the superior gas sensing properties from projected density of states analysis. Our results suggest that the Janus PtSSe monolayer is a promising gas sensor with superior and tunable sensing properties.

Published

2020

5. Magnetocrystalline anisotropy and its electric-field-assisted switching of Heusler-compound-based perpendicular magnetic tunnel junctions

Author

Minggang Zeng, Zhaoqiang Bai, Qingyun Wu, Yuan Ping Feng, Yongqing Cai, Lei Shen, and Guchang Han

Subjects

Physics, Tunnel effect, Magnetoresistance, Condensed matter physics, Electrical resistivity and conductivity, Electric field, engineering, General Physics and Astronomy, Density functional theory, engineering.material, Heusler compound, Magnetocrystalline anisotropy, Anisotropy

Abstract

Employing density functional theory combined with the non-equilibrium Greenʼs function formalism, we systematically investigate the structural, magnetic and magnetoelectric properties of the Co2FeAl(CFA)/MgO interface, as well as the spin-dependent transport characteristics of the CFA/MgO/CFA perpendicular magnetic tunnel junctions (p-MTJs). We find that the structure of the CFA/MgO interface with the oxygen-top FeAl termination has high thermal stability, which is protected by the thermodynamic equilibrium limit. Furthermore, this structure is found to have perpendicular magnetocrystalline anisotropy (MCA). Giant electric-field-assisted modifications of this interfacial MCA through magnetoelectric coupling are demonstrated with an MCA coefficient of up to 10−7 erg V−1 cm. In addition, our non-collinear spin transport calculations of the CFA/MgO/CFA p-MTJ predict a good magnetoresistance performance of the device.

Published

2014

6. Stability and vibrational properties of the hydrogen atom for p-type AlN doped with group-II: a first-principles study

Author

Jianmin, Zhang, primary, Guigui, Xu, additional, Qingyun, Wu, additional, Zhigao, Chen, additional, and Zhigao, Huang, additional

Published

2010