4.6 Article

High-performance photodetector based on semi-encompassed CH3NH3PbCl3-ZnO microwire heterojunction with alterable spectral response

Journal

PHYSICA SCRIPTA
Volume 98, Issue 3, Pages -

Publisher

IOP Publishing Ltd
DOI: 10.1088/1402-4896/acbbf9

Keywords

perovskite crystallites; ZnO microwires; heterojunction; photodetector

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Heterojunctions consisting of hybrid organic-inorganic lead halide perovskites and other semiconductors have attracted attention for their potential application in photodetectors. However, their performance is limited by the low crystalline quality of perovskites and the difficulty in adjusting response spectra. This study successfully fabricated high quality CH3NH3PbCl3 micro-sized crystals on one side of individual ZnO microwires to form a heterojunction photodetector, which showed low dark current and rapid response speed. The modulation of response spectra and responsivity can be achieved by front or back illumination due to self-filtering properties, providing a promising method for high-performance heterojunction photodetectors.
Recently, heterojunctions consisting of hybrid organic-inorganic lead (Pb) halide perovskites and other semiconductors have drawn increasing attention for the potential application in photodetectors due to their exceptional performance. However, their performance is usually limited by the relatively low crystalline quality of perovskites, and the response spectra of the devices are difficult to adjust according to the practical requirement. Here, high quality CH3NH3PbCl3 micro-sized crystals have been successfully fabricated on one side of individual ZnO microwire to form heterojunction photodetector by a two-step crystallization method. The heterojunction device presents a low dark current (60 nA at -6 V) along with a rapid response speed (rise time of mu s and fall time of similar to 500 mu s). More interestingly, the modulation of the response spectra and the responsivity can be realized by operating the device under front or back illumination due to the self-filtering properties. Our findings provide a promising method for combining perovskites with other inorganic materials to form high-performance heterojunction photodetectors.

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