发光
光致发光
材料科学
圆极化
紫外线
光电子学
卤化物
量子产额
钆
圆二色性
二极管
光学
光学活性
紫外线
光化学
X射线磁圆二色性
发光二极管
手性(物理)
量子效率
金属
产量(工程)
线极化
作者
Tianyin Shao,Wenkai Zhao,Xinyi Niu,Haolin Lu,Xin Zeng,Hebin Wang,Zhaoyu Wang,Wenting Liu,Bing Sun,Hao‐Li Zhang,Yongsheng Chen,Guankui Long
标识
DOI:10.1002/anie.202516078
摘要
Abstract Circularly polarized luminescence (CPL) in the ultraviolet B (UVB) region holds great potential applications in asymmetric catalysis, enantioselective polymerization, and polarization‐based optical anticounterfeiting and information encryption. However, to date, the CPL materials in the UVB region remain unexplored. In this study, the first chiral gadolinium‐based organic–inorganic hybrid metal halides, ( R / S ‐C 3 H 7 NF 3 ) 3 GdCl 6 ( R / S ‐ 3F ‐ Gd ), were constructed, which exhibit efficient CPL in the UVB region. Owing to the unique 4 f ‐4 f transition of Gd 3+ ions, R / S ‐ 3F ‐ Gd shows a high photoluminescent quantum yield of 18%, a narrow full width at half maximum (∼3 nm) and a ultralong photoluminescence lifetime (∼6.6 ms). Additionally, their CPL can be further tuned by applying the external magnetic field. Then the light‐emitting diode (LED) chips coated with R ‐ or S ‐ 3F ‐ Gd were also fabricated, which exhibit high dissymmetry factor of + 9.1 × 10 −3 and −8.2 × 10 −3 , further demonstrate their potential as circularly polarized light source in the UVB region. Our work offers a novel strategy for designing the chiral luminescent materials with efficient CPL response in the UVB region and broadens the family of chiral organic–inorganic hybrid rare‐earth halides.
科研通智能强力驱动
Strongly Powered by AbleSci AI