Frontiers in Physics (Nov 2023)

Layered metal-organic chalcogenide thin films for flexible and large-area X-ray direct detection

  • Ilaria Fratelli,
  • Ilaria Fratelli,
  • Lorenzo Maserati,
  • Lorenzo Maserati,
  • Laura Basiricò,
  • Laura Basiricò,
  • Alessandro Galeazzi,
  • Bianca Passarella,
  • Andrea Ciavatti,
  • Andrea Ciavatti,
  • Mario Caironi,
  • Beatrice Fraboni,
  • Beatrice Fraboni

DOI
https://doi.org/10.3389/fphy.2023.1325164
Journal volume & issue
Vol. 11

Abstract

Read online

X-ray detection for personal dosimetry requires sensitive, stable and non-toxic materials. At the same time, scalability onto large-area and flexible substrates is emerging as a desirable property. To satisfy these requirements, novel materials to be employed as the active layer of direct X-ray detectors are needed. In this search for easy-processability, large area, efficient and non-toxic materials for direct X-ray detection, we assess the performance of a layered metal-organic chalcogenide [AgSePh]∞, recently proposed as representative of a novel excitonic semiconductors platform. Here we demonstrate that [AgSePh]∞ can be successfully applied as direct ionizing radiation detecting layer, reaching sensitivities up to (180 ± 10) μC Gy−1 cm−2 and competitive limit of detection down to (100 ± 30) nGy s−1. Moreover, it offers good stability and reproducibility of detection after 100 Gy of irradiation and upon bending to a curvature radius of 5 mm.

Keywords