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Polymerisable liquid crystalline organic semiconductors and their fabrication in organic field effect transistors

Polymerisable liquid crystalline organic semiconductors and their fabrication in organic field effect transistors
Polymerisable liquid crystalline organic semiconductors and their fabrication in organic field effect transistors
The performance of the semiconducting component in organic field effect transistors (OFETs) is a key parameter in the advancement of organic electronic devices. New semiconductors are required, which can be solution processed, possess high mobility and current modulation, and are stable in ambient conditions. This work provides the first demonstration of working field effect transistor devices fabricated from novel solution processible, polymerisable, small molecule liquid crystalline semiconductors, referred to as reactive mesogens. The design, synthesis, and performance of these materials in transistor devices are reported. The relationship between liquid crystal molecular structure, its corresponding phase behaviour and electrical performance is examined. Molecular design methodology was employed to control the liquid crystalline morphology, in an attempt to optimise organisation and packing. Alignment of the molecules in large homeotropic domains was achieved through surface treatment techniques, and the highly ordered mesophase was preserved by polymerisation of the reactive end groups, creating a crosslinked network.
charge-transport, electrical characteristics, carrier mobility, thermal-behavior, photopolymerization, networks, phase, alpha
2436-2444
McCulloch, Iain
7cac4a7c-75ab-47da-85b7-0ae78f600ee0
Zhang, Weimin
0e1d018a-513d-4d3f-bba1-0b38e5409464
Heeney, Martin
29360690-672c-4186-add3-f463f990e616
Bailey, Clare
e4c10869-bc21-42d7-b5fb-829bd810dbc2
Giles, Mark
69c73c59-9823-45d9-bd5c-6137eac4616a
Graham, David
c78f720d-6e98-4f8e-bceb-7884b2650702
Shkunov, Maxim
2fff59a4-358b-4c89-a501-76ec445457d7
Sparrowe, David
bf6033db-64df-489d-9738-9ab4c931a86b
Tierney, Steven
cb122683-88c2-4578-b1d1-1319b3de4d2e
McCulloch, Iain
7cac4a7c-75ab-47da-85b7-0ae78f600ee0
Zhang, Weimin
0e1d018a-513d-4d3f-bba1-0b38e5409464
Heeney, Martin
29360690-672c-4186-add3-f463f990e616
Bailey, Clare
e4c10869-bc21-42d7-b5fb-829bd810dbc2
Giles, Mark
69c73c59-9823-45d9-bd5c-6137eac4616a
Graham, David
c78f720d-6e98-4f8e-bceb-7884b2650702
Shkunov, Maxim
2fff59a4-358b-4c89-a501-76ec445457d7
Sparrowe, David
bf6033db-64df-489d-9738-9ab4c931a86b
Tierney, Steven
cb122683-88c2-4578-b1d1-1319b3de4d2e

McCulloch, Iain, Zhang, Weimin, Heeney, Martin, Bailey, Clare, Giles, Mark, Graham, David, Shkunov, Maxim, Sparrowe, David and Tierney, Steven (2003) Polymerisable liquid crystalline organic semiconductors and their fabrication in organic field effect transistors. Journal of Materials Chemistry, 13 (10), 2436-2444. (doi:10.1039/b307764k).

Record type: Article

Abstract

The performance of the semiconducting component in organic field effect transistors (OFETs) is a key parameter in the advancement of organic electronic devices. New semiconductors are required, which can be solution processed, possess high mobility and current modulation, and are stable in ambient conditions. This work provides the first demonstration of working field effect transistor devices fabricated from novel solution processible, polymerisable, small molecule liquid crystalline semiconductors, referred to as reactive mesogens. The design, synthesis, and performance of these materials in transistor devices are reported. The relationship between liquid crystal molecular structure, its corresponding phase behaviour and electrical performance is examined. Molecular design methodology was employed to control the liquid crystalline morphology, in an attempt to optimise organisation and packing. Alignment of the molecules in large homeotropic domains was achieved through surface treatment techniques, and the highly ordered mesophase was preserved by polymerisation of the reactive end groups, creating a crosslinked network.

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More information

Published date: 2003
Keywords: charge-transport, electrical characteristics, carrier mobility, thermal-behavior, photopolymerization, networks, phase, alpha
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Identifiers

Local EPrints ID: 20046
URI: http://eprints.soton.ac.uk/id/eprint/20046
DOI: doi:10.1039/b307764k
PURE UUID: 53900858-89fc-4c3c-841c-35fef8ae7d4a

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Date deposited: 24 Feb 2006
Last modified: 15 Mar 2024 06:21

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Contributors

Author: Iain McCulloch
Author: Weimin Zhang
Author: Martin Heeney
Author: Clare Bailey
Author: Mark Giles
Author: David Graham
Author: Maxim Shkunov
Author: David Sparrowe
Author: Steven Tierney

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