Abstract

Abstract Organic‐inorganic hybrid perovskites are promising candidates for direct X‐ray detection and imaging. The relatively high dark current in perovskite single crystals (SCs) is a major limiting factor hindering the pursuit of performance and stability enhancement. In this study, the contribution of dark current is disentangled from electronic ( σ e ) and ionic conductivity ( σ i ) and shows that the high σ i dominates the dark current of MAPbBr 3 SCs. A multilayer heterojunctions passivation strategy is developed that suppresses not only the σ i by two orders of magnitude but also σ e by a factor of 1.6. The multilayer heterojunctions passivate the halide vacancy defects and increase the electron and hole injection barrier by inducing surface p‐type doping of MAPbBr 3 . This enables the MAPbBr 3 SC X‐ray detectors to obtain a high sensitivity of 19 370 µC Gy air −1 cm −2 under a high electric field of 100 V cm −1 , a record high sensitivity for bromine self‐powered devices, and a low detection limit of 42.3 nGy air s −1 . The unencapsulated detectors demonstrate a stable baseline after storage for 210 days and outstanding operational stability upon irradiation with an accumulated dose of up to 1944 mGy air .