Defects as a factor limiting carrier mobility in WSe2： A spectroscopic investigation 被引量：9

Defects as a factor limiting carrier mobility in WSe2： A spectroscopic investigation

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摘要 The electrical performance of two-dimensional transition metal dichalcogenides （TMDs） is strongly affected by the number of structural defects. In this work, we provide an optical spectroscopic characterization approach to correlate the number of structural defects and the electrical performance of WSe2 devices. Low-temperature photoluminescence （PL） spectra of electron-beam-lithography- processed WSe2 exhibit a clear defect-induced PL emission due to excitons bound to defects, which would strongly degrade the electrical performance. By adopting an electron-beam-free transfer-electrode technique, we successfully prepared a backgated WSe2 device containing a limited amount of defects. A maximum hole mobility of approximately 200 cm2.V -1.s-1 was achieved because of the reduced scattering sources, which is the highest reported value for this type of device. This work provides not only a versatile and nondestructive method to monitor the defects in TMDs but also a new route to approach the room-temperature phonon-limited mobility in high-performance TMD devices. The electrical performance of two-dimensional transition metal dichalcogenides （TMDs） is strongly affected by the number of structural defects. In this work, we provide an optical spectroscopic characterization approach to correlate the number of structural defects and the electrical performance of WSe2 devices. Low-temperature photoluminescence （PL） spectra of electron-beam-lithography- processed WSe2 exhibit a clear defect-induced PL emission due to excitons bound to defects, which would strongly degrade the electrical performance. By adopting an electron-beam-free transfer-electrode technique, we successfully prepared a backgated WSe2 device containing a limited amount of defects. A maximum hole mobility of approximately 200 cm2.V -1.s-1 was achieved because of the reduced scattering sources, which is the highest reported value for this type of device. This work provides not only a versatile and nondestructive method to monitor the defects in TMDs but also a new route to approach the room-temperature phonon-limited mobility in high-performance TMD devices.

作者 Zhangting Wu Zhongzhong Luo Yuting Shen Weiwei Zhao Wenhui Wang Haiyan Nan Xitao Guo Litao Sun Xinran Wang Yumeng You Zhenhua Ni

机构地区 Department of Physics andJiangsu Key Laboratory forAdvanced Metallic Materials National Laboratory of Solid State Microstructure SEU-FEI Nano-Pico Center Jiangsu Key Laboratory for Design and Fabrication of Micro-Nano Biomedical Instruments Ordered Matter Science Research Center

出处《Nano Research》 SCIE EI CAS CSCD 2016年第12期3622-3631,共10页 纳米研究（英文版）

基金 This work was supported by National Natural Science Foundation of China （Nos. 61422503, 21541013 and 61376104）, Natural Science Foundation of Jiangsu Province （No. BK20150596）, Jiangsu key laboratory for advanced metallic materials （No. BM2007204）, the open research funds of Key Laboratory of MEMS of Ministry of Education （SEU, China）, and the Funda- mental Research Funds for the Central Universities. The authors would like to thank Prof. Zhenhua Qiao from USTC, China for helpful discussions.

关键词 two-dimensional materials tungsten diselenide structural defects photoluminescencespectroscopy MOBILITY two-dimensional materials tungsten diselenide structural defects photoluminescencespectroscopy mobility

分类号 TN386 [电子电信—物理电子学] TQ427.26 [化学工程]

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