Locally Hydrazine Doped Wse2 P-N Junction Toward High-Performance Photodetectors

Two dimensional (2D) materials have shown great potential in the photodetection and other optoelectronic applications. Exploiting 2D materials to form p-n junctions enables effective generation and separation of carriers excited by light, thus creating high-performance optoelectronic devices. This paper demonstrates a lateral WSe2 p-n junction through a locally hydrazine doping method. Good current-rectifying characteristics, including a high rectification ratio of similar to 10(3), have been observed; this indicates that a high-quality p-n junction has been formed by chemical doping. Under light illumination, the device shows improved photoresponse capabilities with a responsivity of 30 mA W-1, a detectivity of 6.18 x 10(8) Jones, photocurrent/dark current ratio of 10(3) and a response time of 2 ms. These results suggest an effective way to get a p-n junction and reveal the application potential of the device for next generation photodetectors.