1. A general supramolecular strategy for fabricating full-color-tunable thermally activated delayed fluorescence materials.
- Author
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Xue, Nan, Zhou, He-Ye, Han, Ying, Li, Meng, Lu, Hai-Yan, and Chen, Chuan-Feng
- Subjects
DELAYED fluorescence ,SPACE charge ,CHARGE transfer - Abstract
Developing a facile and feasible strategy to fabricate thermally activated delayed fluorescence materials exhibiting full-color tunability remains an appealing yet challenging task. In this work, a general supramolecular strategy for fabricating thermally activated delayed fluorescence materials is proposed. Consequently, a series of host–guest cocrystals are prepared by electron-donating calix[3]acridan and various electron-withdrawing guests. Owing to the through-space charge transfer mediated by multiple noncovalent interactions, these cocrystals all display efficient thermally activated delayed fluorescence. Especially, by delicately modulating the electron-withdrawing ability of the guest molecules, the emission colors of these cocrystals can be continuously tuned from blue (440 nm) to red (610 nm). Meanwhile, high photoluminescence quantum yields of up to 87% is achieved. This research not only provides an alternative and general strategy for the fabrication of thermally activated delayed fluorescence materials, but also establishes a reliable supramolecular protocol toward the design of advanced luminescent materials. Thermally activated delayed fluorescence materials with full-colour tunability are desirable but challenging to prepare. Here, the authors report a method for preparing such materials through the design of host-guest cocrystals with through-space charge transfer. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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