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Main positions:博士生导师
Degree:Doctoral degree
Status:Employed
School/Department:凝聚态物理与材料物理研究所

史俊杰

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Gender: Male

Education Level: Postgraduate (Doctoral)

Administrative Position: 教授

Alma Mater: 澳大利亚Macquarie大学

Paper Publications

Modulation of electronic and magnetic properties in InSe nanoribbons: edge effect
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Journal:Nanotechnology
Abstract:Quite recently, the two-dimensional (2D) InSe nanosheet has become a hot material with great promise for advanced functional nano-devices. In this work, for the first time, we perform first-principles calculations on the structural, electronic, magnetic and transport properties of 1D InSe nanoribbons with/without hydrogen or halogen saturation. We find that armchair ribbons, with various edges and distortions, are all nonmagnetic semiconductors, with a direct bandgap of 1.3 (1.4) eV for bare (H-saturated) ribbons, and have the same high electron mobility of about 103 cm2V−1s−1 as the 2D InSe nanosheet. Zigzag InSe nanoribbons exhibit metallic behavior and diverse intrinsic ferromagnetic properties, with the magnetic moment of 0.5–0.7 μ B per unit cell, especially for their single-edge spin polarization. The edge spin orientation, mainly dominated by the unpaired electrons of the edge atoms, depends sensitively on the edge chirality. Hydrogen or halogen saturation can effectively recover the structural distortion, and modulate the electronic and magnetic properties. The binding energy calculations show that the stability of InSe nanoribbons is analogous to that of graphene and better than in 2D InSe nanosheets. These InSe nanoribbons, with novel electronic and magnetic properties, are thus very promising for use in electronic, spintronic and magnetoresistive nano-devices.
Indexed by:Journal paper
Discipline:Natural Science
First-Level Discipline:Physics
Volume:29
Page Number:205708
Translation or Not:no
Included Journals:SCI
Date of Publication:2018-03-23