关键字：PHOTOLUMINESCENCE

摘要：Despite the fascinating optical and electronic properties of emerging Cu(I) halides, their high melting points, irreversible decomposition, and intrinsic instability have hindered optoelectronic applications. Here, we designed novel Cu(I) halides, namely C12H28NCuCl2 and C20H48N2Cu4Cl6, with significantly lower melting points (86 and 122 degrees C), enabling remarkable moldability. Intriguingly, this investigation demonstrates that the aging and luminescence-quenching phenomena observed in C12H28NCuCl2 and C20H48N2Cu4Cl6 crystals resulting from the air oxidation can be effectively reversed through controlled heat treatment. The resulting C12H28NCuCl2 and C20H48N2Cu4Cl6 crystals exhibit broadband emi with photoluminescence quantum yields of 74.78% and 46.52%, respectively. Furthermore, C12H28NCuCl2 displays bright radioluminescence, showing an internal X-ray to light conversion efficiency of 36 506 photons/MeV under steady state X-ray illumination. The inherent melt processability of these materials empowers their transformation into diverse shapes suitable for practical applications. Herein, a sizable C12H28NCuCl2 scintillator screen (similar to 10 cm x 7 cm) was successfully prepared through a melt-processing method, achieving X-ray imaging resolution of 9 line pairs per millimeter (9 lp/mm). This study demonstrates the potential of melt-processable Cu(I) halides to be applied in ious applications, because of their unique properties, including facile processing, moldability, and high X-ray luminescence.

卷号：5

期号：11

是否译文：否