Ambipolar organic field-effect transistors based on solution-processed single crystal microwires of a quinoidal oligothiophene derivative

A simple and versatile solution-processing method based on molecular self-assembly is used to fabricate organic single crystal microwires of a low bandgap quinoidal oligothiophene derivative. Individual single crystal microwire transistors present well-balanced ambipolar behaviour with hole and elec...

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Published inChemical communications (Cambridge, England) Vol. 51; no. 27; pp. 5836 - 5839
Main Authors Ribierre, J. C., Zhao, L., Furukawa, S., Kikitsu, T., Inoue, D., Muranaka, A., Takaishi, K., Muto, T., Matsumoto, S., Hashizume, D., Uchiyama, M., André, P., Adachi, C., Aoyama, T.
Format Journal Article
LanguageEnglish
Published England 07.04.2015
Subjects
chemical compounds
chemical reactions
Crystallization
Derivatives
Electron mobility
Electrons
Field effect transistors
Nanowires - chemistry
Nanowires - ultrastructure
Self assembly
Semiconductor devices
Single crystals
Solutions
Thiophenes - chemistry
Transistors
Transistors, Electronic
Online AccessGet full text
ISSN1359-7345
1364-548X
1364-548X
DOI10.1039/C4CC09608H

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Abstract A simple and versatile solution-processing method based on molecular self-assembly is used to fabricate organic single crystal microwires of a low bandgap quinoidal oligothiophene derivative. Individual single crystal microwire transistors present well-balanced ambipolar behaviour with hole and electron mobilities as high as 0.4 and 0.5 cm(2) V(-1) s(-1), respectively.
AbstractList A simple and versatile solution-processing method based on molecular self-assembly is used to fabricate organic single crystal microwires of a low bandgap quinoidal oligothiophene derivative. Individual single crystal microwire transistors present well-balanced ambipolar behaviour with hole and electron mobilities as high as 0.4 and 0.5 cm super(2) V super(-1) s super(-1), respectively.
A simple and versatile solution-processing method based on molecular self-assembly is used to fabricate organic single crystal microwires of a low bandgap quinoidal oligothiophene derivative. Individual single crystal microwire transistors present well-balanced ambipolar behaviour with hole and electron mobilities as high as 0.4 and 0.5 cm(2) V(-1) s(-1), respectively.A simple and versatile solution-processing method based on molecular self-assembly is used to fabricate organic single crystal microwires of a low bandgap quinoidal oligothiophene derivative. Individual single crystal microwire transistors present well-balanced ambipolar behaviour with hole and electron mobilities as high as 0.4 and 0.5 cm(2) V(-1) s(-1), respectively.
A simple and versatile solution-processing method based on molecular self-assembly is used to fabricate organic single crystal microwires of a low bandgap quinoidal oligothiophene derivative. Individual single crystal microwire transistors present well-balanced ambipolar behaviour with hole and electron mobilities as high as 0.4 and 0.5 cm(2) V(-1) s(-1), respectively.
A simple and versatile solution-processing method based on molecular self-assembly is used to fabricate organic single crystal microwires of a low bandgap quinoidal oligothiophene derivative. Individual single crystal microwire transistors present well-balanced ambipolar behaviour with hole and electron mobilities as high as 0.4 and 0.5 cm² V⁻¹ s⁻¹, respectively.
Author André, P.
Kikitsu, T.
Muto, T.
Uchiyama, M.
Furukawa, S.
Takaishi, K.
Ribierre, J. C.
Aoyama, T.
Hashizume, D.
Adachi, C.
Muranaka, A.
Zhao, L.
Matsumoto, S.
Inoue, D.
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Snippet A simple and versatile solution-processing method based on molecular self-assembly is used to fabricate organic single crystal microwires of a low bandgap...
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StartPage 5836
SubjectTerms chemical compounds
chemical reactions
Crystallization
Derivatives
Electron mobility
Electrons
Field effect transistors
Nanowires - chemistry
Nanowires - ultrastructure
Self assembly
Semiconductor devices
Single crystals
Solutions
Thiophenes - chemistry
Transistors
Transistors, Electronic
Title Ambipolar organic field-effect transistors based on solution-processed single crystal microwires of a quinoidal oligothiophene derivative
URI https://www.ncbi.nlm.nih.gov/pubmed/25686576
https://www.proquest.com/docview/1665125765
https://www.proquest.com/docview/1677925911
https://www.proquest.com/docview/2335140945
Volume 51
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