Lattice Anchoring Stabilizes α-FAPbI3 Perovskite for High-Performance X-Ray Detectors
Yuhua Huang, Su‐Yan Zou, Congyi Sheng, Yu-Chuang Fang, Xudong Wang, Su‐Huai Wei, Wenguang Li, Dai‐Bin Kuang
Abstract
Abstract Formamidinium lead iodide (FAPbI 3 ) perovskite exhibits an impressive X-ray absorption coefficient and a large carrier mobility-lifetime product (µτ), making it as a highly promising candidate for X-ray detection application. However, the presence of larger FA + cation induces to an expansion of the Pb-I octahedral framework, which unfortunately affects both the stability and charge carrier mobility of the corresponding devices. To address this challenge, we develop a novel low-dimensional (HtrzT)PbI 3 perovskite featuring a conjugated organic cation (1H-1,2,4-Triazole-3-thiol, HtrzT + ) which matches well with the α-FAPbI 3 lattices in two-dimensional plane. Benefiting from the matched lattice between (HtrzT)PbI 3 and α-FAPbI 3 , the anchored lattice enhances the Pb-I bond strength and effectively mitigates the inherent tensile strain of the α-FAPbI 3 crystal lattice. The X-ray detector based on (HtrzT)PbI 3 (1.0)/FAPbI 3 device achieves a remarkable sensitivity up to 1.83 × 10 5 μC Gy air −1 cm −2 , along with a low detection limit of 27.6 nGy air s −1 , attributed to the release of residual stress, and the enhancement in carrier mobility-lifetime product. Furthermore, the detector exhibits outstanding stability under X-ray irradiation with tolerating doses equivalent to nearly 1.17 × 10 6 chest imaging doses.