Suppression of Defect Formation in CsPbBr ₃ Nanocrystals via Stoichiometry Regulation for Sensitive and Stable Nanocomposite X–Ray Detectors

physica status solidi (RRL) – Rapid Research Letters Pub Date : 2025-05-14 DOI:10.1002/pssr.202500112

Yuyang Li, Hui Liu, Li Ding, Deren Yang, Yanjun Fang

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Abstract

Perovskite nanocrystals (PNCs) have emerged as promising candidates for X‐ray detection due to their large X‐ray stopping power and their presynthesized crystalline nature, which enables high‐quality thick‐film deposition via a scalable spray coating process. However, the inherent high defect density at the surface of PNCs significantly hampers the charge collection efficiency and overall stability of X‐ray detectors. In this study, the Cs/Pb precursor ratio is identified as a critical factor in mitigating defect formation in CsPbBr 3 PNCs. By introducing a moderate Cs‐deficient stoichiometry, both defect density and self‐doping within the PNCs are effectively reduced. Additionally, PNCs are incorporated into organic bulk‐heterojunctions to fabricate nanocomposite X‐ray detectors, showing that this stoichiometry regulation not only enhances the detectors’ sensitivity but also decreases the dark current and significantly improves their environmental stability. These advancements hold substantial potential for high‐performance flat‐panel X‐ray imaging applications in the future.

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利用化学计量学调控抑制CsPbBr - 3纳米晶体中缺陷的形成，用于灵敏和稳定的纳米复合x射线探测器

钙钛矿纳米晶体（pnc）由于其强大的X射线阻挡能力和预合成的晶体性质，已经成为X射线检测的有希望的候选者，这使得通过可扩展的喷涂工艺可以实现高质量的厚膜沉积。然而，pnc表面固有的高缺陷密度严重影响了X射线探测器的电荷收集效率和整体稳定性。在这项研究中，Cs/Pb前驱体比例被确定为减轻CsPbBr 3 pnc缺陷形成的关键因素。通过引入适度的缺碳化学计量，pnc中的缺陷密度和自掺杂都有效地降低了。此外，pnc被整合到有机体异质结中来制造纳米复合X射线探测器，表明这种化学计量调节不仅提高了探测器的灵敏度，还降低了暗电流，显著提高了它们的环境稳定性。这些进步为未来高性能平板X射线成像应用提供了巨大的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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