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A-Site Cation Engineering of Ruddlesden–Popper Perovskites for Stable, Sensitive, and Portable Direct Conversion X-ray Imaging Detectors

Deyu Xin, Min Zhang, Zhenghui Fan, Ning Yang, Ruihan Yuan, Bing Cai, Ping Yu, Jianguo Zhu, Xiaojia Zheng

2022The Journal of Physical Chemistry Letters24 citationsDOI

Abstract

Perovskite flat-panel X-ray detectors are promising products for realizing low-dose medical imaging, a nondestructive test, and security inspection. However, the perovskite X-ray imager still faces intractable problems such as severe baseline drift, a low signal-to-noise ratio, and rapid performance degradation, which were involved by the notorious intrinsic ion migration of the perovskite functional layer. In this work, sensitive, stable, and portable pixel quasi-two-dimensional (2D) Ruddlesden–Popper (RP) perovskite X-ray imagers were obtained by an advanced solvent-free laminated fabrication approach. A-Site cation engineering of RP perovskites provides a hint for solving the trade-off between stability and detection performance, resulting in a stable pixel X-ray imager that shows a sensitivity of ∼7000 μC Gyair–1 cm–2, a detection limit of 7.8 nGyair s–1, and good 2D multipixel X-ray imaging. This work demonstrates both a high-performance, stable X-ray imager and its robust fabrication, paving the way for adopting a RP perovskite imager as novel flat-panel X-ray detectors.

Topics & Concepts

FabricationDetectorPerovskite (structure)X-ray detectorX-rayPixelMaterials scienceOptoelectronicsSensitivity (control systems)OpticsSIGNAL (programming language)PhysicsComputer scienceChemistryElectronic engineeringCrystallographyEngineeringPathologyAlternative medicineMedicineProgramming languagePerovskite Materials and ApplicationsLuminescence Properties of Advanced MaterialsRadiation Detection and Scintillator Technologies