Advanced Science (Jan 2023)

Mixed 3D–2D Perovskite Flexible Films for the Direct Detection of 5 MeV Protons

  • Laura Basiricò,
  • Ilaria Fratelli,
  • Matteo Verdi,
  • Andrea Ciavatti,
  • Luisa Barba,
  • Olivia Cesarini,
  • Giorgio Bais,
  • Maurizio Polentarutti,
  • Massimo Chiari,
  • Beatrice Fraboni

DOI
https://doi.org/10.1002/advs.202204815
Journal volume & issue
Vol. 10, no. 1
pp. n/a – n/a

Abstract

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Abstract This study reports on a novel, flexible, proton beam detector based on mixed 3D–2D perovskite films deposited by solution onto thin plastic foils. The 3D–2D mixture allows to obtain micrometer‐thick and highly uniform films that constitute the detector's active layer. The devices demonstrate excellent flexibility with stable electric transport properties down to a bending radius of 3.1 mm. The detector is characterized under a 5 MeV proton beam with fluxes in the range [4.5 × 105 – 1.4 × 109] H+ cm−2 s−1, exhibiting a stable response to repetitive irradiation cycles with sensitivity up to (290 ± 40) nC Gy−1mm−3 and a limit of detection down to (72±2) µGy s−1. The detector radiation tolerance is also assessed up to a total of 1.7 × 1012 protons impinging on the beam spot area, with a maximum variation of the detector's response of 14%.

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