Order Induced Charge Carrier Mobility Enhancement in Columnar Liquid Crystal Diodes

Discotic molecules comprising a rigid aromatic core and flexible side chains have been promisingly applied in OLEDs as self-organizing organic semiconductors. Due to their potentially high charge carrier mobility along the columns, device performance can be readily improved by proper alignment of co...

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Veröffentlicht in:	ACS applied materials & interfaces 2013-11, Vol.5 (22), p.11935-11943
Hauptverfasser:	Eccher, Juliana, Faria, Gregório C, Bock, Harald, von Seggern, Heinz, Bechtold, Ivan H
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Sprache:	eng
Schlagworte:	Chemical Sciences Material chemistry
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container_title	ACS applied materials & interfaces
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creator	Eccher, Juliana Faria, Gregório C Bock, Harald von Seggern, Heinz Bechtold, Ivan H
description	Discotic molecules comprising a rigid aromatic core and flexible side chains have been promisingly applied in OLEDs as self-organizing organic semiconductors. Due to their potentially high charge carrier mobility along the columns, device performance can be readily improved by proper alignment of columns throughout the bulk. In the present work, the charge mobility was increased by 5 orders of magnitude due to homeotropic columnar ordering induced by the boundary interfaces during thermal annealing in the mesophase. State-of-the-art diodes were fabricated using spin-coated films whose homeotropic alignment with formation of hexagonal germs was observed by polarizing optical microscopy. The photophysical properties showed drastic changes at the mesophase-isotropic transition, which is supported by the gain of order observed by X-ray diffraction. The electrical properties were investigated by modeling the current–voltage characteristics by a space-charge-limited current transport with a field dependent mobility.
doi_str_mv	10.1021/am403681q
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title	Order Induced Charge Carrier Mobility Enhancement in Columnar Liquid Crystal Diodes
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