双相热激活延迟荧光发光体：一种无需探针预处理和探针浓度即可进行时间分辨成像的材料。

Dual-Phase Thermally Activated Delayed Fluorescence Luminogens: A Material for Time-Resolved Imaging Independent of Probe Pretreatment and Probe Concentration.

机构信息

Key Laboratory of Coal Science and Technology, Ministry of Education and Shanxi Province, Taiyuan University of Technology, Taiyuan, 030024, China.

State Key Laboratory of Molecular Engineering of Polymers, Department of Macromolecular Science, Fudan University, Shanghai, 200438, China.

出版信息

Angew Chem Int Ed Engl. 2020 May 4;59(19):7548-7554. doi: 10.1002/anie.202000185. Epub 2020 Mar 13.

DOI:10.1002/anie.202000185

PMID:32073698

Abstract

Developing luminescent probes with long lifetime and high emission efficiency is essential for time-resolved imaging. However, the practical applications usually suffer from emission quenching of traditional luminogens in aggregated states, or from weak emission of aggregation-induced emission type luminogens in monomeric states. Herein, we overcome this dilemma by a rigid-and-flexible alternation design in donor-acceptor-donor skeletons, to achieve a thermally activated delayed fluorescence luminogen with high emission efficiency both in the monomeric state (quantum yield up to 35.3 %) and in the aggregated state (quantum yield up to 30.8 %). Such a dual-phase strong and long-lived emission allows a time-resolved luminescence imaging, with an efficiency independent of probe pretreatment and probe concentration. The findings open opportunities for developing luminescent probes with a usage in larger temporal and spatial scales.

摘要

发展具有长寿命和高光致发光效率的荧光探针对于时间分辨成像是至关重要的。然而，传统的聚集态荧光团在实际应用中通常会受到发射猝灭的影响，而聚集诱导发光型荧光团在单体态下的发射则较弱。在此，我们通过在给体-受体-给体骨架中进行刚性-柔性交替设计，克服了这一困境，得到了一种热活化延迟荧光发光团，其在单体态（量子产率高达 35.3%）和聚集态（量子产率高达 30.8%）均具有高光致发光效率。这种双相强且长寿命的发射允许进行时间分辨的荧光成像，且其效率与探针预处理和探针浓度无关。这些发现为开发在更大时间和空间尺度上使用的荧光探针提供了机会。

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双相热激活延迟荧光发光体：一种无需探针预处理和探针浓度即可进行时间分辨成像的材料。

Dual-Phase Thermally Activated Delayed Fluorescence Luminogens: A Material for Time-Resolved Imaging Independent of Probe Pretreatment and Probe Concentration.

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