Performance enhancement by additional donors in D–A–D′ type thermally activated delayed fluorescence materials†

IF 6.4 2区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Materials Chemistry Frontiers Pub Date : 2025-05-14 DOI:10.1039/D5QM00104H

Jiuyan Li, Xin Li, Jiahui Wang, Jing Jin and Jun Wang

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Abstract

Two donor–acceptor–donor’ (D–A–D′) type thermally activated delayed fluorescence (TADF) molecules, tCz-BP-PXZ and tCz-PhBP-PXZ, comprising a benzoyl acceptor and two different donors, i.e. phenoxazine (PXZ) and 3,6-di-tert-butyl-9-methyl-9H-carbazole (tCz), were designed and prepared. The second donor tCz was linked either directly (tCz-BP-PXZ) or through a phenylene bridge (tCz-PhBP-PXZ) to the benzoyl acceptor. The quantum calculations and spectral measurements revealed that the PXZ donor preferentially underwent charge transfer interaction with the benzoyl acceptor to achieve a small ΔE_ST for the TADF feature, while the tCz donor offered twisted molecular configurations to reduce intermolecular interactions and tuned the higher triplet state's nature and alignment and enhanced the RISC process and the TADF ratio. Thus, the incorporation of the tCz donor in tCz-BP-PXZ and tCz-PhBP-PXZ increased the photoluminescence quantum yields and reverse intersystem crossing rates relative to the tCz-free reference emitter BP-PXZ. Yellow organic light-emitting diodes (OLEDs) of tCz-BP-PXZ and tCz-PhBP-PXZ exhibited high EQEs of 17.2% and 23.5% that are much higher than that of BP-PXZ (14.0%) and slow efficiency roll-offs (with EQEs of 15.9% and 16.8% at 1000 cd m⁻²) due to a suppressed quenching effect. They also exhibited acceptable performance in non-doped OLEDs. It was observed that the phenylene linkage between the tCz group and the acceptor in tCz-PhBP-PXZ is beneficial and responsible for the superior performance of tCz-BP-PXZ.

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D-A-D '型热激活延迟荧光材料的附加供体对性能的增强

设计并制备了两个供体-受体-供体‘ （D-A-D ’）型热激活延迟荧光（TADF）分子，tCz- bp -PXZ和tCz- phbp -PXZ，由一个苯甲酰受体和两个不同的供体，即苯恶嗪（PXZ）和3,6-二叔丁基-9-甲基- 9h -咔唑（tCz）组成。第二个给体tCz可以直接（tCz- bp - pxz）或通过苯基桥（tCz- phbp - pxz）与苯甲酰受体相连。量子计算和光谱测量结果表明，PXZ给体优先与苯甲酰受体进行电荷转移相互作用，以获得较小的ΔEST的TADF特征，而tCz给体提供扭曲的分子构型，以减少分子间相互作用，调节高三重态的性质和排列，增强RISC过程和TADF比。因此，tCz给体在tCz-BP-PXZ和tCz- phbp - pxz中的掺入，相对于不含tCz的参考发射极BP-PXZ，增加了光致发光量子产率和反向系统间交叉率。tCz-BP-PXZ和tCz-PhBP-PXZ有机发光二极管的EQEs分别为17.2%和23.5%，远高于BP-PXZ(14.0%)，但由于抑制了猝灭效应，其效率滚降缓慢（在1000 cd m−2时EQEs分别为15.9%和16.8%）。它们在非掺杂oled中也表现出可接受的性能。结果表明，tCz- phbp - pxz中tCz基团与受体之间的苯基连接是tCz- bp - pxz具有优异性能的重要原因。

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来源期刊

Materials Chemistry Frontiers Materials Science-Materials Chemistry

CiteScore

12.00

自引率

2.90%

发文量

313

期刊介绍： Materials Chemistry Frontiers focuses on the synthesis and chemistry of exciting new materials, and the development of improved fabrication techniques. Characterisation and fundamental studies that are of broad appeal are also welcome. This is the ideal home for studies of a significant nature that further the development of organic, inorganic, composite and nano-materials.