Selective Crystallization of Organic Semiconductors on Patterned Templates of Carbon Nanotubes

Selective Crystallization of Organic Semiconductors on Patterned Templates of Carbon Nanotubes

A method of patterning large arrays of organic single crystals is reported. Using single‐walled carbon nanotube (SWNT) bundles as patterned templates, several organic semiconductor materials were successfully patterned, including p‐type pentacene, tetracene, sexiphenylene, and sexithiophene, as well...

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Veröffentlicht in:Advanced functional materials 2007-10, Vol.17 (15), p.2891-2896
Hauptverfasser: Liu, S., Briseno, A. L., Mannsfeld, S. C. B., You, W., Locklin, J., Lee, H. W., Xia, Y., Bao, Z.
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Sprache:eng
Schlagworte:
Arrays
Arrays, Patterning
Carbon nanotubes
Carbon nanotubes, single‐walled
Field-effect transistors
organic
Patterning
Semiconductors
Semiconductors, organic
single-walled
Templates
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container_end_page 2896
container_issue 15
container_start_page 2891
container_title Advanced functional materials
container_volume 17
creator Liu, S.
Briseno, A. L.
Mannsfeld, S. C. B.
You, W.
Locklin, J.
Lee, H. W.
Xia, Y.
Bao, Z.
description A method of patterning large arrays of organic single crystals is reported. Using single‐walled carbon nanotube (SWNT) bundles as patterned templates, several organic semiconductor materials were successfully patterned, including p‐type pentacene, tetracene, sexiphenylene, and sexithiophene, as well as n‐type tetracyanoquinodimethane (TCNQ). This study suggests that the selective growth of crystals onto patterned carbon nanotubes is most likely due to the coarse topography of the SWNT bundles. Moreover, we observed that the crystals nucleated from SWNT bundles and grew onto SWNT bundles in a conformal fashion. The dependence of the number of crystals on the quantity of SWNT bundles is also discussed. The crystal growth can be directly applied onto transistor source‐drain electrodes and arrays of organic single‐crystal field effect transistors are demonstrated. The results demonstrate the potential of utilizing carbon nanotubes as nucleation templates for patterning a broad range of organic materials for applications in optoelectronics. Using single‐walled carbon nanotube (SWNT) bundles as templates, organic semiconductor materials can be successfully patterned (see figure). The selective growth of crystals onto patterned carbon nanotubes is most likely due to the coarse topography of the SWNT bundles. The crystal growth can be directly applied to transistor source–drain electrodes, and arrays of organic single‐crystal field effect transistors are demonstrated.
doi_str_mv 10.1002/adfm.200700484
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Using single‐walled carbon nanotube (SWNT) bundles as patterned templates, several organic semiconductor materials were successfully patterned, including p‐type pentacene, tetracene, sexiphenylene, and sexithiophene, as well as n‐type tetracyanoquinodimethane (TCNQ). This study suggests that the selective growth of crystals onto patterned carbon nanotubes is most likely due to the coarse topography of the SWNT bundles. Moreover, we observed that the crystals nucleated from SWNT bundles and grew onto SWNT bundles in a conformal fashion. The dependence of the number of crystals on the quantity of SWNT bundles is also discussed. The crystal growth can be directly applied onto transistor source‐drain electrodes and arrays of organic single‐crystal field effect transistors are demonstrated. The results demonstrate the potential of utilizing carbon nanotubes as nucleation templates for patterning a broad range of organic materials for applications in optoelectronics. Using single‐walled carbon nanotube (SWNT) bundles as templates, organic semiconductor materials can be successfully patterned (see figure). The selective growth of crystals onto patterned carbon nanotubes is most likely due to the coarse topography of the SWNT bundles. The crystal growth can be directly applied to transistor source–drain electrodes, and arrays of organic single‐crystal field effect transistors are demonstrated.</description><identifier>ISSN: 1616-301X</identifier><identifier>EISSN: 1616-3028</identifier><identifier>DOI: 10.1002/adfm.200700484</identifier><language>eng</language><publisher>Weinheim: WILEY-VCH Verlag</publisher><subject>Arrays ; Arrays, Patterning ; Carbon nanotubes ; Carbon nanotubes, single‐walled ; Field-effect transistors ; organic ; Patterning ; Semiconductors ; Semiconductors, organic ; single-walled ; Templates</subject><ispartof>Advanced functional materials, 2007-10, Vol.17 (15), p.2891-2896</ispartof><rights>Copyright © 2007 WILEY‐VCH Verlag GmbH &amp; Co. 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Funct. Mater</addtitle><description>A method of patterning large arrays of organic single crystals is reported. Using single‐walled carbon nanotube (SWNT) bundles as patterned templates, several organic semiconductor materials were successfully patterned, including p‐type pentacene, tetracene, sexiphenylene, and sexithiophene, as well as n‐type tetracyanoquinodimethane (TCNQ). This study suggests that the selective growth of crystals onto patterned carbon nanotubes is most likely due to the coarse topography of the SWNT bundles. Moreover, we observed that the crystals nucleated from SWNT bundles and grew onto SWNT bundles in a conformal fashion. The dependence of the number of crystals on the quantity of SWNT bundles is also discussed. The crystal growth can be directly applied onto transistor source‐drain electrodes and arrays of organic single‐crystal field effect transistors are demonstrated. The results demonstrate the potential of utilizing carbon nanotubes as nucleation templates for patterning a broad range of organic materials for applications in optoelectronics. Using single‐walled carbon nanotube (SWNT) bundles as templates, organic semiconductor materials can be successfully patterned (see figure). The selective growth of crystals onto patterned carbon nanotubes is most likely due to the coarse topography of the SWNT bundles. 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Funct. Mater</addtitle><date>2007-10-15</date><risdate>2007</risdate><volume>17</volume><issue>15</issue><spage>2891</spage><epage>2896</epage><pages>2891-2896</pages><issn>1616-301X</issn><eissn>1616-3028</eissn><abstract>A method of patterning large arrays of organic single crystals is reported. Using single‐walled carbon nanotube (SWNT) bundles as patterned templates, several organic semiconductor materials were successfully patterned, including p‐type pentacene, tetracene, sexiphenylene, and sexithiophene, as well as n‐type tetracyanoquinodimethane (TCNQ). This study suggests that the selective growth of crystals onto patterned carbon nanotubes is most likely due to the coarse topography of the SWNT bundles. Moreover, we observed that the crystals nucleated from SWNT bundles and grew onto SWNT bundles in a conformal fashion. The dependence of the number of crystals on the quantity of SWNT bundles is also discussed. The crystal growth can be directly applied onto transistor source‐drain electrodes and arrays of organic single‐crystal field effect transistors are demonstrated. The results demonstrate the potential of utilizing carbon nanotubes as nucleation templates for patterning a broad range of organic materials for applications in optoelectronics. Using single‐walled carbon nanotube (SWNT) bundles as templates, organic semiconductor materials can be successfully patterned (see figure). The selective growth of crystals onto patterned carbon nanotubes is most likely due to the coarse topography of the SWNT bundles. The crystal growth can be directly applied to transistor source–drain electrodes, and arrays of organic single‐crystal field effect transistors are demonstrated.</abstract><cop>Weinheim</cop><pub>WILEY-VCH Verlag</pub><doi>10.1002/adfm.200700484</doi><tpages>6</tpages></addata></record>
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source Wiley Online Library Journals Frontfile Complete
subjects Arrays
Arrays, Patterning
Carbon nanotubes
Carbon nanotubes, single‐walled
Field-effect transistors
organic
Patterning
Semiconductors
Semiconductors, organic
single-walled
Templates
title Selective Crystallization of Organic Semiconductors on Patterned Templates of Carbon Nanotubes
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