热激活延迟荧光作为激发单重态和三重态之间的循环过程：在富勒烯中的应用。

Thermally activated delayed fluorescence as a cycling process between excited singlet and triplet states: application to the fullerenes.

作者信息

Baleizão Carlos, Berberan-Santos Mário N

机构信息

Centro de Química-Física Molecular, Instituto Superior Técnico, 1049-001 Lisboa, Portugal.

出版信息

J Chem Phys. 2007 May 28;126(20):204510. doi: 10.1063/1.2734974.

DOI:10.1063/1.2734974

PMID:17552781

Abstract

In efficient thermally activated delayed fluorescence (TADF) the excited chromophore alternates randomly between the singlet and triplet manifolds a large number of times before emission occurs. In this work, the average number of cycles n is obtained and is shown to have a simple experimental meaning: n+1 is the intensification factor of the prompt fluorescence intensity, owing to the occurrence of TADF. A new method of data analysis for the determination of the quantum yield of triplet formation, combining steady-state and time-resolved data in a single plot, is also presented. Application of the theoretical results to the TADF of [70]fullerenes shows a general good agreement between different methods of fluorescence analysis and allows the determination of several photophysical parameters.

摘要

在高效热激活延迟荧光（TADF）中，激发态发色团在发射发生之前会在单重态和三重态之间随机交替大量次数。在这项工作中，获得了平均循环次数n，并表明其具有简单的实验意义：n + 1是由于TADF的发生导致的即时荧光强度的增强因子。还提出了一种新的数据分析方法，用于在单个图中结合稳态和时间分辨数据来确定三重态形成的量子产率。将理论结果应用于[70]富勒烯的TADF表明，不同的荧光分析方法之间总体上具有良好的一致性，并允许确定几个光物理参数。

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热激活延迟荧光作为激发单重态和三重态之间的循环过程：在富勒烯中的应用。

Thermally activated delayed fluorescence as a cycling process between excited singlet and triplet states: application to the fullerenes.

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