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Effects of donor position and multiple charge transfer pathways in asymmetric pyridyl-sulfonyl TADF emitters

Haykir, Gulcin; Aydemir, Murat; Tekin, Adem; Tekin, Emine; Danos, Andrew; Yuksel, Fatma; Hizal, Gurkan; Monkman, Andrew P.; Turksoy, Figen

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Authors

Gulcin Haykir

Murat Aydemir

Adem Tekin

Emine Tekin

Fatma Yuksel

Gurkan Hizal

Figen Turksoy



Abstract

We have designed and synthesized a pair of highly asymmetric D-aA-D′ type pyridyl-sulfonyl based isomers comprising phenothiazine (PTZ) and carbazole (Cz) donor units, which are able to emit thermally activated delayed fluorescence. PTZ-pS4-Py-2Cz and PTZ-mS4-Py-2Cz both possess spatial separation of HOMO/LUMO on the donor and acceptor moieties, resulting in small calculated singlet–triplet energy gaps (~0.25 eV). Both isomers exhibit dual emission, which is attributed to charge transfer states associated with the Cz and PTZ moieties at higher and lower energies, respectively. Photoluminescence quantum yields and time-resolved emission decays show significant differences for the two isomers, with the para- isomer exhibiting more efficient emission and stronger delayed fluorescence than the meta- isomer – in strong contrast to recently reported analogous Cz-Cz D-aA-D isomers. The findings clearly show that the interconversion of triplets via the rISC mechanism is promoted when parallel Cz and PTZ charge transfer states are allowed to interact, explaining the improved performance of the Cz-PTZ materials compared to the previous Cz-Cz ones. Finally, moderate device performance was achieved in warm-yellowish (CIE; 0.41; 0.53 & 0.49; 0.48) non-doped OLEDs, which exhibited 0.5% & 1.9% maximum external quantum efficiencies for the meta- and para- isomers, respectively.

Citation

Haykir, G., Aydemir, M., Tekin, A., Tekin, E., Danos, A., Yuksel, F., Hizal, G., Monkman, A. P., & Turksoy, F. (2022). Effects of donor position and multiple charge transfer pathways in asymmetric pyridyl-sulfonyl TADF emitters. Materials Today Communications, 31, Article 103550. https://doi.org/10.1016/j.mtcomm.2022.103550

Journal Article Type Article
Acceptance Date Apr 12, 2022
Online Publication Date Apr 15, 2022
Publication Date 2022-06
Deposit Date Jun 29, 2022
Publicly Available Date Apr 15, 2023
Journal Materials Today Communications
Print ISSN 2352-4928
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 31
Article Number 103550
DOI https://doi.org/10.1016/j.mtcomm.2022.103550
Public URL https://durham-repository.worktribe.com/output/1202822

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