荧光
分子内力
光化学
罗丹明
量子产额
化学
吲哚试验
内部转换
斯托克斯位移
发光
皮秒
发色团
材料科学
化学物理
密度泛函理论
基态
激子
荧光光谱法
晶体工程
罗丹明B
结晶学
染料激光器
位阻效应
薗头偶联反应
激发态
量子点
单晶
作者
Qiuping Wang,Yalei Ma,Yutong Shang,Taihong Liu,Xiaoyan Liu,Jing Liu,Liping Ding,Rong Miao,Yu Fang
出处
期刊:Angewandte Chemie
[Wiley]
日期:2025-09-10
卷期号:64 (44): e202514295-e202514295
被引量:1
标识
DOI:10.1002/anie.202514295
摘要
Rhodamine derivatives exhibiting inverted open-closed form fluorescence behavior redefines conventional photochemical paradigms while illuminating new structure-property relationships and fascinating application potentials. Herein, we report a donor-acceptor engineering strategy that activates closed form emission in rhodamines, achieving unprecedented Stokes shifts (>280 nm) while overcoming aggregation-caused quenching. The new class of rhodamines with inverted open-close form emission behavior are created through simultaneous substitution of N,N-diethyl groups with indole (donor) and conversion of spiro-lactam to benzene sulfonamide (acceptor). The closed structure was verified by single crystal X-ray diffraction and the intramolecular spatial steric hinderance increased after indole substitution, which avoids exciton coupling and leads to bright fluorescence in solid state (absolute quantum yield>25%). Density functional theory calculations confirmed inverted intramolecular charge-transfer (ICT) characteristics of the synthesized dyes versus rhodamine B, where moderate ICT gives higher fluorescence and strong ICT quenches fluorescence. Leveraging the unique photophysical properties of the novel rhodamines, a closed-loop plastic recycling scheme is proposed, where the dye in closed state is used for fluorescence tracing and the labelled unrecyclable plastics are utilized as encryption ink after acid treatment (open state). This finding highlighted a new insight for engineering fluorescence of rhodamine dyes and contributes to plastics sustainability.
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