2D hybrid perovskites are a novel and promising class of semiconductors for the realization of direct fast neutron detectors because they combine excellent transport properties with a large organic cation, rich in low-Z elements, which strongly interacts with fast neutrons. Here, this study presents the employment of PEA2PbBr4 (PEA = C6H5C2H4NH3+) thin films for the direct detection of fast neutrons. By tuning the perovskite deposition process, it achieves a stable and reproducible response capable to monitor in real-time the flux of fast neutrons (energy = [1–4] MeV; beam flux = [0.4–3] · 105 n s−1cm−2) by providing an output electrical signal proportional to the radiation field intensity. Finally, the employment of a thin film-based device boosts the discrimination capability of this technology and offers the possibility to realize a flexible and easy-scalable detecting system very appealing for the development of wearable personal dosimeters.
Fratelli, I., Pino, F., Basirico, L., Napolitano, G., Delgado, J.C., Cepic, S., et al. (2025). Fast Neutron Detector Based on Hybrid 2D Perovskite Thin Films. ADVANCED FUNCTIONAL MATERIALS, 35(46), 1-10 [10.1002/adfm.202502530].
Fast Neutron Detector Based on Hybrid 2D Perovskite Thin Films
Fratelli I.;Basirico L.;Napolitano G.;Fraboni B.
2025
Abstract
2D hybrid perovskites are a novel and promising class of semiconductors for the realization of direct fast neutron detectors because they combine excellent transport properties with a large organic cation, rich in low-Z elements, which strongly interacts with fast neutrons. Here, this study presents the employment of PEA2PbBr4 (PEA = C6H5C2H4NH3+) thin films for the direct detection of fast neutrons. By tuning the perovskite deposition process, it achieves a stable and reproducible response capable to monitor in real-time the flux of fast neutrons (energy = [1–4] MeV; beam flux = [0.4–3] · 105 n s−1cm−2) by providing an output electrical signal proportional to the radiation field intensity. Finally, the employment of a thin film-based device boosts the discrimination capability of this technology and offers the possibility to realize a flexible and easy-scalable detecting system very appealing for the development of wearable personal dosimeters.| File | Dimensione | Formato | |
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