铜（I）配合物用于热激活延迟荧光：从光物理性质到器件性能。

Copper(I) Complexes for Thermally Activated Delayed Fluorescence: From Photophysical to Device Properties.

机构信息

Institut für Physikalische Chemie, Universität Regensburg, Universitätsstr. 31, 93053, Regensburg, Germany.

Cynora GmbH, Werner-von-Siemensstraße 2-6, Building 5110, 76646, Bruchsal, Germany.

出版信息

Top Curr Chem (Cham). 2016 Jun;374(3):25. doi: 10.1007/s41061-016-0019-1. Epub 2016 Apr 28.

DOI:10.1007/s41061-016-0019-1

PMID:27573265

Abstract

Molecules that exhibit thermally activated delayed fluorescence (TADF) represent a very promising emitter class for application in electroluminescent devices since all electrically generated excitons can be transferred into light according to the singlet harvesting mechanism. Cu(I) compounds are an important class of TADF emitters. In this contribution, we want to give a deeper insight into the photophysical properties of this material class and demonstrate how the emission properties depend on molecular and host rigidity. Moreover, we show that with molecular optimization a significant improvement of selected emission properties can be achieved. From the discussed materials, we select one specific dinuclear complex, for which the two Cu(I) centers are four-fold bridged to fabricate an organic light emitting diode (OLED). This device shows the highest efficiency (of 23 % external quantum efficiency) reported so far for OLEDs based on Cu(I) emitters.

摘要

表现出热激活延迟荧光（TADF）的分子是一类非常有前途的发射体，适用于电致发光器件，因为根据单线态俘获机制，所有电生成的激子都可以转化为光。Cu（I）化合物是 TADF 发射体的一个重要类别。在本贡献中，我们希望更深入地了解该材料类别的光物理性质，并展示发射性质如何取决于分子和主体的刚性。此外，我们还表明，通过分子优化，可以显著改善选定的发射性质。在所讨论的材料中，我们选择了一种特定的双核配合物，其中两个 Cu（I）中心以四配位方式桥连，以制造有机发光二极管（OLED）。与基于 Cu（I）发射体的 OLED 相比，该器件表现出迄今为止报道的最高效率（23%的外量子效率）。

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铜（I）配合物用于热激活延迟荧光：从光物理性质到器件性能。

Copper(I) Complexes for Thermally Activated Delayed Fluorescence: From Photophysical to Device Properties.

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