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Intramolecular charge transfer enables highly-efficient X-ray luminescence in cluster scintillators

Author

Listed:
  • Nan Zhang

    (Heilongjiang University)

  • Lei Qu

    (Heilongjiang University)

  • Shuheng Dai

    (Fuzhou University)

  • Guohua Xie

    (Wuhan University)

  • Chunmiao Han

    (Heilongjiang University)

  • Jing Zhang

    (Heilongjiang University)

  • Ran Huo

    (Heilongjiang University)

  • Huan Hu

    (Heilongjiang University)

  • Qiushui Chen

    (Fuzhou University)

  • Wei Huang

    (Northwestern Polytechnical University (NPU))

  • Hui Xu

    (Heilongjiang University)

Abstract

Luminescence clusters composed of organic ligands and metals have gained significant interests as scintillators owing to their great potential in high X-ray absorption, customizable radioluminescence, and solution processability at low temperatures. However, X-ray luminescence efficiency in clusters is primarily governed by the competition between radiative states from organic ligands and nonradiative cluster-centered charge transfer. Here we report that a class of Cu4I4 cubes exhibit highly emissive radioluminescence in response to X-ray irradiation through functionalizing biphosphine ligands with acridine. Mechanistic studies show that these clusters can efficiently absorb radiation ionization to generate electron-hole pairs and transfer them to ligands during thermalization for efficient radioluminescence through precise control over intramolecular charge transfer. Our experimental results indicate that copper/iodine-to-ligand and intraligand charge transfer states are predominant in radiative processes. We demonstrate that photoluminescence and electroluminescence quantum efficiencies of the clusters reach 95% and 25.6%, with the assistance of external triplet-to-singlet conversion by a thermally activated delayed fluorescence matrix. We further show the utility of the Cu4I4 scintillators in achieving a lowest X-ray detection limit of 77 nGy s−1 and a high X-ray imaging resolution of 12 line pairs per millimeter. Our study offers insights into universal luminescent mechanism and ligand engineering of cluster scintillators.

Suggested Citation

  • Nan Zhang & Lei Qu & Shuheng Dai & Guohua Xie & Chunmiao Han & Jing Zhang & Ran Huo & Huan Hu & Qiushui Chen & Wei Huang & Hui Xu, 2023. "Intramolecular charge transfer enables highly-efficient X-ray luminescence in cluster scintillators," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38546-x
    DOI: 10.1038/s41467-023-38546-x
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