All-solution-processed perovskite/gallium nitride particles hybrid visible-blind ultraviolet photodetectors

Abstract

Abstract Last decades have witnessed the rapid development of ultraviolet (UV) photodetectors in diversity of applications. The III-nitride semiconductor and metal halide perovskite have both performed promising UV-sensing optoelectronic properties. However, they are still suffering from either the high temperature epitaxial-growth or low photocurrent generated in UV range. In this work, we demonstrate an innovative MAPbCl 3 /GaN particle hybrid device with all-solution-processed deposition methods. Comparing to the control MAPbCl 3 photoconductors, the photo-sensing ability of the hybrid device with the optimal concentration of GaN particles is more than one order of magnitude enhanced, and report a responsivity of 86 mA W −1 , a detectivity of 3.1 × 10 11 Jones and a rise/fall time of 1.1/10.7 ms at 360 nm. The photocurrent increment could be attributed to the enhanced UV absorption of GaN particles and facilitated charge separation and photoconductive gain at MAPbCl 3 /GaN heterojunction. This work paves a pathway towards the large-scale low-cost UV photodetectors in versatile applications.