The effect of hexyl side chains on molecular conformations, crystal packing, and charge transport of oligothiophenes

We report substituent effects on conformational preferences and hole mobilities of 2,5-bis-(thiophen-2-yl)thieno[3,2- b ]thiophenes (BTTT) monomer and dimer, and hexyl derivatives. We employ single-crystal X-ray diffraction, quantum mechanical calculations, and thin-film transistors to explore the d...

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Veröffentlicht in:Journal of materials chemistry. C, Materials for optical and electronic devices Materials for optical and electronic devices, 2017, Vol.5 (3), p.582-588
Hauptverfasser: Cherniawski, Benjamin P., Lopez, Steven A., Burnett, Edmund K., Yavuz, Ilhan, Zhang, Lei, Parkin, Sean R., Houk, Kendall N., Briseno, Alejandro L.
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container_end_page 588
container_issue 3
container_start_page 582
container_title Journal of materials chemistry. C, Materials for optical and electronic devices
container_volume 5
creator Cherniawski, Benjamin P.
Lopez, Steven A.
Burnett, Edmund K.
Yavuz, Ilhan
Zhang, Lei
Parkin, Sean R.
Houk, Kendall N.
Briseno, Alejandro L.
description We report substituent effects on conformational preferences and hole mobilities of 2,5-bis-(thiophen-2-yl)thieno[3,2- b ]thiophenes (BTTT) monomer and dimer, and hexyl derivatives. We employ single-crystal X-ray diffraction, quantum mechanical calculations, and thin-film transistors to explore the difference between monomer, dimer, and effect of hexyl substitution. The hexyl-substituted molecules show marked differences in solid-state packing compared to the unsubstituted analogs. Most notably, the alkylated monomer crystal structure exhibits terminal thiophenes in the syn conformation. In contrast, the unsubstituted monomer adopts the more common anti conformation. The hexyl-substituted dimer, however, features a mixture of syn and anti thiophenes. Gas phase conformations of oligomers rationalize the intrinsic conformational preferences. We use a multimode simulation to compute hole mobilities and find excellent agreement with experiment. Theoretical results support our hypothesis that alkyl side chains cause these small molecules to adopt orientations that enhance hole mobilities by an order of magnitude upon hexyl substitution of the monomer.
doi_str_mv 10.1039/C6TC04612F
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subjects Computer simulation
Derivatives
Dimers
Hole mobility
Molecular conformation
Monomers
Oligomers
Thiophenes
title The effect of hexyl side chains on molecular conformations, crystal packing, and charge transport of oligothiophenes
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