Spectral‑luminescent and electroluminescent properties of charge‑transfer systems based on electron‑donating diphenylamine derivatives and acceptors of dibenzothiophene sulfone and phenanthridine R. M. Gadirov, L. G. Samsonova, K. M. Degtyarenko [et al.]
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ArticleContent type: Текст Media type: электронный Subject(s): фенантридин | дипольный момент | флуоресценция | замедленная флуоресценция | фосфоресценция | электролюминесценция | органические светодиоды | дибензотиофен-сульфонGenre/Form: статьи в журналах Online resources: Click here to access online
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Journal of fluorescence Vol. 31, № 5. P. 1333-1342Abstract: Spectral characteristics and luminescence under the photo- and electro-excitation of substituted dibenzthiophene sulfone and phenanthridine were studied in this paper. Diphenylamines are substituents introduced in the 2nd and 7th positions (linear configuration) or the 3rd and 6th positions (angular configuration) of dibenzthiophene sulfone or phenanthridine. All molecules show delayed fluorescence, both in solutions and films produced by thermal vacuum deposition. The value of the energy gap between the S1 and T1 states has been estimated and is shown to depend not only on the spatial arrangement of the fragments among themselves (linear or angular), but also on the nature of the substituent in diphenylamine. The highest electroluminescence brightness was found for the molecules, in which triplet levels are involved, both through the process of triplet-triplet annihilation and through thermally activated delayed fluorescence.
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Spectral characteristics and luminescence under the photo- and electro-excitation of substituted dibenzthiophene sulfone and phenanthridine were studied in this paper. Diphenylamines are substituents introduced in the 2nd and 7th positions (linear configuration) or the 3rd and 6th positions (angular configuration) of dibenzthiophene sulfone or phenanthridine. All molecules show delayed fluorescence, both in solutions and films produced by thermal vacuum deposition. The value of the energy gap between the S1 and T1 states has been estimated and is shown to depend not only on the spatial arrangement of the fragments among themselves (linear or angular), but also on the nature of the substituent in diphenylamine. The highest electroluminescence brightness was found for the molecules, in which triplet levels are involved, both through the process of triplet-triplet annihilation and through thermally activated delayed fluorescence.
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