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Hybrid Eu(II)-bromide scintillators with efficient 5d-4f bandgap transition for X-ray imaging
80
Zitationen
7
Autoren
2024
Jahr
Abstract
Luminescent metal halides are attracting growing attention as scintillators for X-ray imaging in safety inspection, medical diagnosis, etc. Here we present brand-new hybrid Eu(II)-bromide scintillators, 1D type [Et<sub>4</sub>N]EuBr<sub>3</sub>·MeOH and 0D type [Me<sub>4</sub>N]<sub>6</sub>Eu<sub>5</sub>Br<sub>16</sub>·MeOH, with spin-allowed 5d-4f bandgap transition emission toward simplified carrier transport during scintillation process. The 1D/0D structures with edge/face -sharing [EuBr<sub>6</sub>]<sup>4-</sup> octahedra further contribute to lowing bandgaps and enhancing quantum confinement effect, enabling efficient scintillation performance (light yield ~73100 ± 800 Ph MeV<sup>-1</sup>, detect limit ~18.6 nGy s<sup>-1</sup>, X-ray afterglow ~ 1% @ 9.6 μs). We demonstrate the X-ray imaging with 27.3 lp mm<sup>-1</sup> resolution by embedding Eu(II)-based scintillators into AAO film. Our results create the new family of low-dimensional rare-earth-based halides for scintillation and related optoelectronic applications.
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