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碩士 === 國立中央大學 === 化學研究所 === 97 === Eight molecules based on DTT and TTA skeletons have been synthesized. DTT system contains DFP-DTT (1), DTT-DTT (2), DBT-DTT (3), DBF-DTT (4), DN-DTT (5), and FPP-DTT (6). TTA system contains DP-TTA (7) amd DFP-TTA (8). The device fabrications of all eight the mater...

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Bibliographic Details
Main Authors:	Yu-wen Huang, 黃玉文
Other Authors:	Ming-chou Chen
Format:	Others
Language:	zh-TW
Online Access:	http://ndltd.ncl.edu.tw/handle/21993942327045892340

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spelling	ndltd-TW-097NCU050650232016-05-02T04:10:59Z http://ndltd.ncl.edu.tw/handle/21993942327045892340 無有機薄膜電晶體材料三併環及四併環噻吩衍生物之開發 Yu-wen Huang 黃玉文碩士國立中央大學化學研究所 97 Eight molecules based on DTT and TTA skeletons have been synthesized. DTT system contains DFP-DTT (1), DTT-DTT (2), DBT-DTT (3), DBF-DTT (4), DN-DTT (5), and FPP-DTT (6). TTA system contains DP-TTA (7) amd DFP-TTA (8). The device fabrications of all eight the materials are currently assisted by Tobin J. Marks group at Northwestern University. Asymmetric FPP-DTT (6), a P-type semiconductor, exhibits good field-effect performance with a high mobility of 0.2 cm2/Vs. DFP-DTT (1) exhibits N-type FET behavior with a mobility of 0.06 cm2/Vs. DFP-TTA (8), a N-type semiconductor material, exhibits excellent field-effect performance with a mobility as high as 0.3 cm2/Vs. These organic semiconductor materials all show good stability under photo and thermal conditions. Ming-chou Chen 陳銘洲學位論文 ; thesis 126 zh-TW
collection	NDLTD
language	zh-TW
format	Others
sources	NDLTD
description	碩士 === 國立中央大學 === 化學研究所 === 97 === Eight molecules based on DTT and TTA skeletons have been synthesized. DTT system contains DFP-DTT (1), DTT-DTT (2), DBT-DTT (3), DBF-DTT (4), DN-DTT (5), and FPP-DTT (6). TTA system contains DP-TTA (7) amd DFP-TTA (8). The device fabrications of all eight the materials are currently assisted by Tobin J. Marks group at Northwestern University. Asymmetric FPP-DTT (6), a P-type semiconductor, exhibits good field-effect performance with a high mobility of 0.2 cm2/Vs. DFP-DTT (1) exhibits N-type FET behavior with a mobility of 0.06 cm2/Vs. DFP-TTA (8), a N-type semiconductor material, exhibits excellent field-effect performance with a mobility as high as 0.3 cm2/Vs. These organic semiconductor materials all show good stability under photo and thermal conditions.
author2	Ming-chou Chen
author_facet	Ming-chou Chen Yu-wen Huang 黃玉文
author	Yu-wen Huang 黃玉文
spellingShingle	Yu-wen Huang 黃玉文無
author_sort	Yu-wen Huang
title	無
title_short	無
title_full	無
title_fullStr	無
title_full_unstemmed	無
title_sort	無
url	http://ndltd.ncl.edu.tw/handle/21993942327045892340
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