紫外线
分子内力
光致发光
菱形
分子
分子间力
材料科学
单晶
共轭体系
量子产额
激光器
光化学
紫外线
化学
光电子学
结晶学
聚合物
光学
立体化学
荧光
有机化学
几何学
数学
物理
复合材料
作者
Lin Chen,Jiangli Cai,Yingying Zhen,Changjin Ou,Xue‐Hua Ding,Jinyi Lin
标识
DOI:10.1021/acs.jpclett.3c03106
摘要
Light-emitting molecular crystals with efficient emission behavior are crucial for fabricating low-threshold ultraviolet organic lasers. Herein, we demonstrated a rhombus microcrystal from a fluorene-based conjugated molecule (CL-1) with robust emission behavior for an ultraviolet organic laser. Due to the synergistic effect of twisted intramolecular conformation and weak π-interaction, the CL-1 single crystal showed an extremely high photoluminescence quantum yield (PLQY) of ∼82%, due to their single-molecule excitonic behavior. Considering the diverse noncovalent interactions, CL-1 molecules easily self-assembled into the rhombus microcrystals. Finally, a low-threshold ultraviolet organic laser was fabricated with a sharp emission at 379 nm, attributed to the 0-1 vibration band of a single CL-1 molecule, also further confirming the single twisted-molecule emission in crystal states. Precisely controlling the intramolecular twisted structure and intermolecular interaction of organic conjugated molecules is a precondition to obtain robust ultraviolet emission for optoelectronic applications.
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