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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

Enhancement of photoluminescence and hole mobility in 1- to 5-layer InSe due to the top valence-band inversion: strain effect
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Impact Factor:0.0
DOI number:10.1039/c8nr03172j
Journal:Nanoscale
Abstract:Recently, two-dimensional (2D) few-layer InSe nanosheets have become one of the most interesting materials due to their excellent electron transport, wide bandgap tunability and good metal contact. However, their low photoluminescence (PL) efficiency and hole mobility seriously restrict their application in 2D InSe-based nano-devices. Here, by exerting a suitable compressive strain, a remarkable modification for the electronic structure and the optical and transport properties of 1- to 5-layer InSe has been confirmed by powerful GW-BSE calculations. Both top valence band inversion and indirect-to-direct bandgap transition are induced; the light polarization is reversed from E||c to E⊥c; and the PL intensity and hole mobility are enhanced greatly. Surprisingly, under 6% compressive strain, the light emission of monolayer InSe with E⊥c is allowed at 2.58 eV, which has never been observed previously. Meanwhile, for the 2D few-layer InSe, the PL with E⊥c polarization increases over 10 times in intensity and has a blue-shift at about 0.6–0.7 eV, and the hole mobility increases two orders of magnitude up to 103 cm2 V−1 s−1, as high as electron mobility. The strained few-layer InSe are thus a promising candidate for future 2D electronic and optoelectronic nano-devices.
Indexed by:Journal paper
Discipline:Natural Science
First-Level Discipline:Physics
Volume:10
Page Number:11441-11451
Translation or Not:no
Included Journals:SCI
Date of Publication:2018-05-16