Scintillators have garnered heightened attention for their diverse applications in medical imaging and security inspection. Nonetheless, commercial scintillators encounter challenges with costly rare-earth metals and toxic elements like thallium (Tl), driving the need for sustainable, cost-effective, and eco-friendly alternatives to meet contemporary X-ray detection demands. This study focuses on exploring the potential of Cu-doped RbAgI as an effective metal halide (MH) scintillator. One-dimensional (1D) RbAgI and Cu-doped RbAgI single crystals (SCs) were synthesized by using the conventional temperature-lowering crystallization method. When excited by UV light, Cu-doped SCs emitted a broad sky-blue light at 490 nm with a high photoluminescence (PL) quantum yield (PLQY) of 76.48%. Remarkably, under X-ray excitation, these Cu-doped SCs demonstrated an outstanding light yield of 36,293 photons MeV, a relatively low detection threshold of 1.022 μGy s, and a rapid scintillation decay time of 465 ns. The prepared translucent scintillation film has good uniformity and flexibility, with a high spatial resolution of 10.2 lp mm. These results position Cu-doped RbAgI as a leading candidate among promising X-ray scintillators, offering superior scintillation light yield, excellent stability, and nontoxicity.
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| http://dx.doi.org/10.1021/acsomega.4c04077 | DOI Listing |
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