发光
光致发光
圆极化
圆二色性
光致聚合物
铈
紫外线
材料科学
光化学
量子产额
发光测量
化学
单体
光电子学
结晶学
光学
物理
聚合物
荧光
复合材料
冶金
微带线
作者
Chen Li,Yi Wei,Yan Zhang,Zhishan Luo,Yulian Liu,Meiying He,Zewei Quan
出处
期刊:Angewandte Chemie
[Wiley]
日期:2024-04-17
卷期号:63 (26): e202403727-e202403727
被引量:30
标识
DOI:10.1002/anie.202403727
摘要
Abstract Ultraviolet circularly polarized luminescence (UV‐CPL) with high photon energy shows great potential in polarized light sources and stereoselective photopolymerization. However, developing luminescent materials with high UV‐CPL performance remains challenging. Here, we report a pair of rare earth Ce 3+ ‐based zero‐dimensional (0D) chiral hybrid metal halides (HMHs), R/S ‐(C 14 H 24 N 2 ) 2 CeBr 7 , which exhibits characteristic UV emissions derived from the Ce 5d–4f transition. The compounds show simultaneously high photoluminescent quantum yields of (32–39)% and large luminescent dissymmetry factor (|g lum |) values of (1.3–1.5)×10 −2 . Thus, the figures of merits of R/S ‐(C 14 H 24 N 2 ) 2 CeBr 7 are calculated to be (4.5–5.8)×10 −3 , which are superior to the reported UV‐CPL emissive materials. Additionally, nearly 91 % of their PL intensities at 300 K can be well preserved at 380 K (LED operating temperature) without phase transition or decomposition, demonstrating the excellent structural and optical thermal stabilities of R/S ‐(C 14 H 24 N 2 ) 2 CeBr 7 . Based on these enantiomers, the fabricated UV‐emitting CP‐LEDs exhibit high polarization degrees of ±1.0 %. Notably, the UV‐CPL generated from the devices can significantly trigger the enantioselective photopolymerization of diacetylene with remarkable stereoselectivity, and consequently yield polymerized products with the anisotropy factors of circular dichroism (g CD ) up to ±3.9×10 −2 , outperforming other UV‐CPL materials and demonstrating their great potential as UV‐polarized light sources.
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