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旋转受阻的氮和硫杂环二聚体中三重态能量的构象依赖性:用于高三重态能量OLED主体材料的新设计和测量规则

Conformational Dependence of Triplet Energies in Rotationally Hindered N- and S-Heterocyclic Dimers: New Design and Measurement Rules for High Triplet Energy OLED Host Materials.

作者信息

Wright Iain A, Danos Andrew, Montanaro Stephanie, Batsanov Andrei S, Monkman Andrew P, Bryce Martin R

机构信息

Department of Chemistry, Durham University, South Road, Durham, DH1 3LE, UK.

Department of Chemistry, Loughborough University, Loughborough, Leicestershire, LE11 3TU, UK.

出版信息

Chemistry. 2021 Apr 12;27(21):6545-6556. doi: 10.1002/chem.202100036. Epub 2021 Mar 10.

DOI:10.1002/chem.202100036
PMID:33560550
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8251716/
Abstract

A series of four heterocyclic dimers has been synthesized, with twisted geometries imposed across the central linking bond by ortho-alkoxy chains. These include two isomeric bicarbazoles, a bis(dibenzothiophene-S,S-dioxide) and a bis(thioxanthene-S,S-dioxide). Spectroscopic and electrochemical methods, supported by density functional theory, have given detailed insights into how para- vs. meta- vs. broken conjugation, and electron-rich vs. electron-poor heterocycles impact the HOMO-LUMO gap and singlet and triplet energies. Crucially for applications as OLED hosts, the triplet energy (E ) of these molecules was found to vary significantly between dilute polymer films and neat films, related to conformational demands of the molecules in the solid state. One of the bicarbazole species shows a variation in E of 0.24 eV in the different media-sufficiently large to "make-or-break" an OLED device-with similar discrepancies found between neat films and frozen solution measurements of other previously reported OLED hosts. From consolidated optical and optoelectronic investigations of different host/dopant combinations, we identify that only the lower E values measured in neat films give a reliable indicator of host/guest compatibility. This work also provides new molecular design rules for obtaining very high E materials and controlling their HOMO and LUMO energies.

摘要

已合成了一系列四个杂环二聚体,通过邻位烷氧基链在中心连接键上施加扭曲的几何结构。这些包括两个异构的双咔唑、一个双(二苯并噻吩 - S,S - 二氧化物)和一个双(噻吨 - S,S - 二氧化物)。在密度泛函理论的支持下,光谱和电化学方法对对位与间位与断裂共轭以及富电子与贫电子杂环如何影响HOMO - LUMO能隙和单重态与三重态能量提供了详细的见解。对于作为OLED主体材料的应用至关重要的是,发现这些分子的三重态能量(E)在稀释的聚合物薄膜和纯薄膜之间有显著差异,这与分子在固态下的构象要求有关。其中一种双咔唑在不同介质中的E变化为0.24 eV,这一差异足够大以至于能够“决定”一个OLED器件的成败,在其他先前报道的OLED主体材料的纯薄膜和冷冻溶液测量之间也发现了类似的差异。通过对不同主体/掺杂剂组合的综合光学和光电研究,我们确定只有在纯薄膜中测量到的较低E值才能可靠地指示主体/客体兼容性。这项工作还为获得非常高E值的材料并控制其HOMO和LUMO能量提供了新的分子设计规则。

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