Nature Communications (Sep 2024)

Efficient metal free organic radical scintillators

  • Ansheng Luo,
  • Jingru Zhang,
  • Dongjie Xiao,
  • Gaozhan Xie,
  • Xinqi Xu,
  • Qingxian Zhao,
  • Chengxi Sun,
  • Yanzhang Li,
  • Zehua Zhang,
  • Ping Li,
  • Shouhua Luo,
  • Xiaoji Xie,
  • Qiming Peng,
  • Huanhuan Li,
  • Runfeng Chen,
  • Qiushui Chen,
  • Ye Tao,
  • Wei Huang

DOI
https://doi.org/10.1038/s41467-024-51482-8
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 8

Abstract

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Abstract The development of high-performance metal-free organic X-ray scintillators (OXSTs), characterized by a synergistic combination of robust X-ray absorption, efficient exciton utilization, and short luminescence lifetimes, poses a considerable challenge. Here we present an effective strategy for achieving augmented X-ray scintillation through the utilization of halogenated open-shell organic radical scintillators. Our experimental results demonstrate that the synthesized scintillators exhibit strong X-ray absorption derived from halogen atoms, display efficacious X-ray stability, and theoretically achieve 100% exciton utilization efficiency with a short lifetime (∼18 ns) due to spin-allowed doublet transitions. The superior X-ray scintillation performance exhibited by these organic radicals is not only exploitable in X-ray radiography for contrast imaging of various objects but also applicable in a medical high-resolution micro-computer-tomography system for the clear visualization of fibrous veins within a bamboo stick. Our study substantiates the promise of organic radicals as prospective candidates for OXSTs, offering valuable insights and a roadmap for the development of advanced organic radical scintillators geared towards achieving high-quality X-ray radiography.