Ekaterina S. Frantseva scite author profile

Single crystals of furan/phenylene co-oligomers are among the most promising highly-emissive materials for applications in various optoelectronic devices. In this work, we synthesized and studied furan/phenylene co-oligomers with the same conjugated core 1,4-bisĲ5-phenylfuran-2-yl)benzene and methyl substituents at pand m-positions of the terminal phenyls. The effect of substituents on the crystal packing, charge transport and luminescence of the single crystals was studied. Compared to the unsubstituted compound, the methyl-substituted co-oligomers demonstrated improved thermostability and enhanced photoluminescence, which we assign to J-aggregation resulting from the strong inclination of the molecules against the main crystal facet. The charge mobility in single crystal organic field-effect transistors decreased upon the inclination of the molecules. We conclude that the molecular tilt angle, intermolecular distances and interactions in crystals of heteroaryl-containing linear conjugated oligomers can be controlled by the introduction of end methyl groups in the appropriate positions.

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Synthesis, luminescence and charge transport properties of furan/phenylene co-oligomers: The study of conjugation length effect

Kazantsev

Beloborodova

Kuimov

et al. 2018

Organic Electronics

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CCDC 1520470: Experimental Crystal Structure Determination

Kazantsev¹,

Beloborodova²,

Frantseva³

et al. 2017

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CCDC 1520469: Experimental Crystal Structure Determination

Kazantsev¹,

Beloborodova²,

Frantseva³

et al. 2017

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