发光
材料科学
四足动物(结构)
圆极化
星团(航天器)
对映体
量子产额
荧光
结晶学
八面体
二极管
金属
光电子学
量子效率
手性(物理)
波长
铜
光化学
发光二极管
量子
圆二色性
可见光谱
化学
晶体结构
作者
Feifan Wang,Liang Zhang,Yaqing Zhang,Yue Wang,Si-Meng Zhai,Yubing Si,Jiachen Zhang,Zhen Han,Shuang‐Quan Zang
摘要
ABSTRACT The development of stable Cu(I) clusters exhibiting near‐infrared circularly polarized luminescence (NIR CPL) presents a significant challenge. In addressing this challenge, we present the synthesis of ultrastable chiral R / S ‐Cu 30 clusters through a dual‐ligand strategy, which feature a tetrapod metal skeleton and represent the largest nuclearity Cu(I) cluster reported to exhibit NIR CPL. The R / S ‐Cu 30 structure is self‐assembled from five octahedral Cu 6 units. R / S ‐Cu 30 exhibits excellent NIR CPL with high quantum yields of 40% in solution, benefiting from the characteristic of stable structure and thermally activated delayed fluorescence (TADF), marking the first observation of NIR circularly polarized TADF within the Cu(I) cluster family. Due to the exceptional stability, solution processability and NIR CPL property of R / S ‐Cu 30 , the NIR‐CP light‐emitting diodes were fabricated and exhibited g EL of +1.8/−2.1 × 10 −3 and an EQE of 8% with an emission wavelength of 732 nm. This study not only presents an enantiomeric pair of tetrapod‐like Cu 30 (I) clusters but also successfully addresses the intertwined challenges of stability, efficient NIR emission, and chiral luminescence in the design of copper clusters.
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