Details

Autor(en) / Beteiligte

• Yang, Shengxue
• Liu, Yuan
• Wu, Minghui
• Zhao, Li-Dong
• Lin, Zhaoyang
• Cheng, Hung-chieh
• Wang, Yiliu
• Jiang, Chengbao
• Wei, Su-Huai
• Huang, Li
• Huang, Yu
• Duan, Xiangfeng

Titel

Highly-anisotropic optical and electrical properties in layered SnSe

Ist Teil von

• Nano research, 2018, Vol.11 (1), p.554-564

Ort / Verlag

Beijing: Tsinghua University Press

Erscheinungsjahr

2018

Link zum Volltext

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• Anisotropic materials are of considerable interest because of their unique combination of polarization- or direction-dependent electrical, optical, and thermoelectric properties. Low-symmetry two-dimensional （2D） materials formed by van der Waals stacking of covalently bonded atomic layers are inherently anisotropic. Layered SnSe exhibits a low degree of lattice symmetry, with a distorted NaC1 structure and an in-plane anisotropy. Here we report a systematic study of the in-plane anisotropic properties in layered SnSe, using angle-resolved Raman scattering, optical absorption, and electrical transport studies. The optical and electrical characterization was direction-dependent, and successfully identified the crystalline orientation in the layered SnSe. Furthermore, the dependence of Raman-intensity anisotropy on the SnSe flake thickness and the excitation wavelength were investigated by both experiments and theoretical calculations. Finally, the electrical transport studies demonstrated that few-layer SnSe field- effect transistors （FETs） have a large anisotropic ratio of carrier mobility （N 5.8） bet- ween the armchair and zigzag directions, which is a record high value reported for 2D anisotropic materials. The highly-anisotropic properties of layered SnSe indicate considerable promise for anisotropic optics, electronics, and optoelectronics.