High performance tetrathienoacene-DDP based polymer thin-film transistors using a photo-patternable epoxy gate insulating layer

Qiang Shi; Yingtao Xie; Shucheng Cai; Wen-Ya Lee; Zhenan Bao; James R. Matthews; Kristi L. Simonton; Timothy E. Myers; Robert A. Bellman; Mingqian He; Hon Hang Fong

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High performance tetrathienoacene-DDP based polymer thin-film transistors using a photo-patternable epoxy gate insulating layer

机译：使用可光图案化的环氧栅绝缘层的高性能基于四硫杂并苯-DDP的聚合物薄膜晶体管

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摘要

High performance organic thin-film transistors (OTFTs) are fabricated on an epoxy based photo-patternable organic gate insulating layer (p-OGI) using a top contact thin-film transistor configuration. This negative tone p-OGI material is composed of an epoxy type polymer resin, a polymeric epoxy cross-linker, and a sulfonium photoacid generator (PAG). Features from p-OGI can be precisely patterned down to ～3 μm via i-line photolithography. In order to evaluate the potential of this epoxy type resin as a gate insulator, we evaluated the dielectric properties of the p-OGI and its gate insulating performance upon fabricating solution processed OTFTs using an organic semiconductor (OSC), namely tetra-thienoacene-DPP copolymer (PTDPPTFT4). Results show that the PTDPPTFT4 based OTFTs with this p-OGI exhibit field-effect mobilities up to 1 cm~2 V~(-1) s~(-1), indicating the potential of high performance solution processed OTFT based on an epoxy based p-OGI/OSC system.

机译：使用顶部接触薄膜晶体管配置，在基于环氧树脂的可光图案化有机栅极绝缘层（p-OGI）上制造高性能有机薄膜晶体管（OTFT）。这种负性p-OGI材料由环氧类聚合物树脂，聚合环氧交联剂和a光产酸剂（PAG）组成。通过i-line光刻技术，可以将p-OGI的特征精确地图案化至约3μm。为了评估这种环氧型树脂作为栅极绝缘体的潜力，我们评估了使用有机半导体（OSC）（即四硫杂环丁烯-DPP）制造溶液加工的OTFT时p-OGI的介电性能及其栅极绝缘性能共聚物（PTDPPTFT4）。结果表明，具有该p-OGI的基于PTDPPTFT4的OTFT的场效应迁移率高达1 cm〜2 V〜（-1）s〜（-1），表明基于环氧基的高性能溶液处理OTFT的潜力p-OGI / OSC系统。

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来源
《Organic Electronics》 |2014年第5期|991-996|共6页
作者
Qiang Shi; Yingtao Xie; Shucheng Cai; Wen-Ya Lee; Zhenan Bao; James R. Matthews; Kristi L. Simonton; Timothy E. Myers; Robert A. Bellman; Mingqian He; Hon Hang Fong;
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作者单位

Department of Electronic Engineering, National Engineering Lab for TFT-LCD Key Materials and Technologies, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai 200240, China;

Department of Electronic Engineering, National Engineering Lab for TFT-LCD Key Materials and Technologies, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai 200240, China;

Department of Electronic Engineering, National Engineering Lab for TFT-LCD Key Materials and Technologies, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai 200240, China;

Department of Chemical Engineering, Stanford University, 381 North South Mall, Stanford, CA 94305, United States;

Department of Chemical Engineering, Stanford University, 381 North South Mall, Stanford, CA 94305, United States;

Corning Incorporated, One River Front Plaza, Corning, NY 14831, United States;

Corning Incorporated, One River Front Plaza, Corning, NY 14831, United States;

Corning Incorporated, One River Front Plaza, Corning, NY 14831, United States;

Corning Incorporated, One River Front Plaza, Corning, NY 14831, United States;

Corning Incorporated, One River Front Plaza, Corning, NY 14831, United States;

Department of Electronic Engineering, National Engineering Lab for TFT-LCD Key Materials and Technologies, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai 200240, China;

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正文语种 eng
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关键词
Gate insulator; Photo-patternability; Organic thin-film transistor;

机译：栅极绝缘体;感光度;有机薄膜晶体管;

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High performance tetrathienoacene-DDP based polymer thin-film transistors using a photo-patternable epoxy gate insulating layer

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