Four-Winged Propeller-Shaped Indole-Modified and Indole-Substituted Tetraphenylethylenes: Greenish-Blue Emitters with Aggregation-Induced Emission Features for Conventional Organic Light-Emitting Diodes

Aggregation-induced emission (AIE) is an extraordinary photochemical phenomenon described by Tang’s group in 2001, where the aggregation of some organic molecules enhances their light emission by limiting intramolecular activity in the aggregate state. This phenomenon offers new opportunities for re...

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Bibliographic Details
Published in:ACS omega 2022-12, Vol.7 (48), p.44322-44337
Main Authors: Lafzi, Ferruh, Taskesenligil, Yunus, Canımkurbey, Betül, Pıravadılı, Selin, Kilic, Haydar, Saracoglu, Nurullah
Format: Article
Language:English
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Summary:Aggregation-induced emission (AIE) is an extraordinary photochemical phenomenon described by Tang’s group in 2001, where the aggregation of some organic molecules enhances their light emission by limiting intramolecular activity in the aggregate state. This phenomenon offers new opportunities for researchers due to its potential applications in optoelectronics, energy, and biophysics. Tetraphenylethylenes (TPEs) are reliable AIE luminogens with a wide range of successful applications in material chemistry. To expand the library of AIE-active TPEs, both a series of TPE analogues, in which the phenyl rotor has been replaced by the indole ring, and indole-substituted TPE derivatives were designed and synthesized through vinyl–aryl and aryl–aryl bond formations using the Suzuki coupling reaction. Efficient synthetic routes that delivered indole-modified and indole-substituted TPEs have been developed, and almost all heterocyclic TPE analogues have demonstrated AIE behavior. Furthermore, to test whether the indole ring can be diversified, two title compounds were converted to a series of bis­(indolyl)­methane (BIM), and these BIM–TPE materials showed typical AIE properties. Interestingly, two compounds indicated a solvent vapor fuming reversible switch between bright blue emission and greenish-yellow emission. Upon fuming with dichloromethane, their fluorescence spectra showed 8 and 32 nm red-shift and could return to the original state after fuming with hexane. Furthermore, we have explored the effects of replacing the phenyl ring in TPE with indole together with the substitution of TPE with indole ring(s) on the performance of organic light-emitting diode (OLED) device applications. In addition, density functional theory calculations; the optical, electrochemical, light emission, electroluminescence characteristics; and admittance spectroscopic analysis of OLED devices of four representative TPEs have been investigated in detail. As a result, the indole–TPEs are potential blue emitters with AIE features for conventional OLEDs, which is a significant color in displays and lighting.
ISSN:2470-1343
2470-1343
DOI:10.1021/acsomega.2c05914