Improving the field-effect performance of Bi2S3 single nanowires by an asymmetric device fabrication

Fangyuan Lu; Renxiong Li; Yan Li; Nengjie Huo; Juehan Yang; Yongtao Li; Bo Li; Shengxue Yang; Zhongming Wei; Jingbo Li

doi:10.1002/cphc.201402594

Improving the field-effect performance of Bi2S3 single nanowires by an asymmetric device fabrication

Chemphyschem. 2015 Jan 12;16(1):99-103. doi: 10.1002/cphc.201402594. Epub 2014 Oct 7.

Authors

Fangyuan Lu¹, Renxiong Li, Yan Li, Nengjie Huo, Juehan Yang, Yongtao Li, Bo Li, Shengxue Yang, Zhongming Wei, Jingbo Li

Affiliation

¹ State Key Laboratory for Superlattices and Microstructures, Institute of Semiconductors, Chinese Academy of Sciences, P.O. Box 912, Beijing100083 (China).

PMID: 25294685
DOI: 10.1002/cphc.201402594

Abstract

High-quality Bi2 S3 nanowires are synthesized by chemical vapor deposition and their intrinsic photoresponsive and field-effect characteristics are explored in detail. Among the studied Au-Au, Ag-Ag, and Au-Ag electrode pairs, the device with stepwise band alignment of asymmetric Au-Ag electrodes has the highest mobility. Furthermore, it is shown that light can cause a sevenfold decrease of the on/off ratio. This can be explained by the photoexcited charge carriers that are more beneficial to the increase of Ioff than Ion . The photoresponsive properties of the asymmetric Au-Ag electrode devices were also explored, and the results show a photoconductive gain of seven with a rise time of 2.9 s and a decay time of 1.6 s.

Keywords: Bi2S3 nanowires; asymmetric electrodes; band alignment; carrier mobility; photoresponse.