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High-Performance OTFTs Using Surface-Modified Alumina Dielectrics
We show novel and selective means to modify the dielectric surfaces in organic TFTs. Modification schemes include alkylphosphonic acid monolayers that have a strong affinity for alumina surfaces. Monolayers form robust, extremely uniform thin films and are deposited through simple spin-coating with...
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Published in: | The journal of physical chemistry. B 2003-06, Vol.107 (24), p.5877-5881 |
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Language: | English |
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container_end_page | 5881 |
container_issue | 24 |
container_start_page | 5877 |
container_title | The journal of physical chemistry. B |
container_volume | 107 |
creator | Kelley, Tommie Wilson Boardman, Larry D Dunbar, Timothy D Muyres, Dawn V Pellerite, Mark J Smith, Terry P |
description | We show novel and selective means to modify the dielectric surfaces in organic TFTs. Modification schemes include alkylphosphonic acid monolayers that have a strong affinity for alumina surfaces. Monolayers form robust, extremely uniform thin films and are deposited through simple spin-coating with a dilute solution of the monolayer precursor in solvent. Adding monolayers to organic TFTs has resulted in polycrystalline devices with mobilities nearly equal to single-crystal values while maintaining acceptable values of other device parameters (for example, the threshold voltage, on/off ratio, and subthreshold slope) required for fully functional integrated circuits. |
doi_str_mv | 10.1021/jp034352e |
format | article |
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title | High-Performance OTFTs Using Surface-Modified Alumina Dielectrics |
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