Van der Waals Epitaxy of Bi2Te2Se/Bi2O2Se Vertical Heterojunction for High Performance Photodetector

Abstract

Bismuth oxyselenide (Bi2 O2 Se) has emerged as a promising candidate for electronic and optoelectronic applications due to its outstanding electron mobility and ambient stability. However, high dark current and relatively slow photoresponse that originate from high charge carrier concentration as well as bolometric effect in Bi2 O2 Se inhibit further improvement of Bi2 O2 Se based photodetectors. Here, a one-step van der Waals (vdW) epitaxy synthesis of Bi2 Te2 Se/Bi2 O2 Se vertical heterojunction with type-II band alignment and high-quality interface is demonstrated. The crystal quality and uniformity of the heterojunction are supported by Raman, transmission electron microscopy and energy dispersive spectroscopy results. A photodetector based on Bi2 Te2 Se/Bi2 O2 Se heterojunction demonstrates steady photoresponse over a large wavelength range (532-1456nm), with a high specific responsivity of 2.21×103 A W-1 at 532nm and fast response speed of 50ms. Moreover, field effect regulation allows for further improvement of the photoresponse performance of the heterojunction field effect transistor device, where the responsivity can be increased to 3.34×103 A W-1 with a 60V gate voltage. Overall, the one-step vdW epitaxy process is a promising and convenient route towards constructing high quality Bi2 O2 Se based heterojunction for improving its photodetection performance.