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SUMMARY:Investigation of the Scintillation Properties of 3D-Printed Polyme
 r–Perovskite Materials
DTSTART:20260529T123000Z
DTEND:20260529T143000Z
DTSTAMP:20260503T105800Z
UID:indico-event-52126@agenda.infn.it
CONTACT:Marco.Cinausero@lnl.infn.it
DESCRIPTION:Speakers: Matteo Polo (University of Trento - Department of In
 dustrial Engineering)\n\nScintillators\, which convert high-energy radiati
 on into visible light\, are key enablers of radiation detection in high-en
 ergy physics and medical imaging. While plastic scintillators are widely a
 dopted for their low cost and fast response\, their limited radiation hard
 ness and lack of geometric flexibility constrain their use in advanced app
 lications such as hadrontherapy and real-time dosimetry.This seminar prese
 nts a novel approach based on a 3D-printable nanocomposite scintillator\, 
 combining a photocurable polymer matrix with metal halide perovskites and 
 processed via stereolithography (SLA).This technology enables the fabricat
 ion of complex\, patient-specific detector geometries\, opening new possib
 ilities for personalized radiation monitoring.The optical and radiolumines
 cent properties of the material will be discussed\, including spectrofluor
 imetric and UV–visible characterization\, as well as preliminary radiati
 on response under α particles and proton beams. Results from proton irrad
 iation experiments at the CEDAD facility will be highlighted\,together wit
 h ongoing efforts toward validation in a clinical proton therapy environme
 nt.The seminar will provide insights into the potential of this emerging c
 lass of materials for next-generation radiation detectors\, with a focus o
 n applications in medical physics and personalized dosimetry\n\nhttps://ag
 enda.infn.it/event/52126/
LOCATION:A. Rostagni meeting room
URL:https://agenda.infn.it/event/52126/
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