New approach for constrain of hysteresis in organic gate insulator based organic thin film transistor with amelioration of backbone structure

Hyoungjin Kim; Dongwoo Kim; Junyoung Lee; Hyunwook So; Junghun Lee; Byunguk Kim; MunPyo Hong

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New approach for constrain of hysteresis in organic gate insulator based organic thin film transistor with amelioration of backbone structure

机译：改善骨架结构的有机栅极绝缘体为基础的有机薄膜晶体管中滞回的新方法

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Constrain of hysteresis was studied in pentacene based organic thin film transistors (OTFTs) with ameliorated poly (4-vinyl phenol) (PVP) as an organic gate insulators (OGIs). The PVP-OGIs were intentionally synthesized to investigate the effect of backbone structure on the electrical characteristics of pentacene based OTFTs. The ameliorated PVP-OGIs were synthesized by inducing a ring shape phenol backbone structure, which led to the localization of the hydroxyl group. The hysteresis behaviors from the operation of ameliorated resin based OTFTs in humidified air can verify that the alternative PVP resin drives nearly hysteresis free, and excellent air stability with ultra low slow polarization. Hysteresis variation observed in PVP-OGI based TFT device was confirmed to be related to the proportion of the hydroxyl group and moisture in the dielectric bulk; however, hysteresis could be constrained by another approach with the amelioration of the backbone structure as ring shape phenol backbone of the PVP-OGI.

机译：在并五苯有机薄膜晶体管（OTFT）中，以改善的聚（4-乙烯基苯酚）（PVP）作为有机栅极绝缘体（OGI），研究了磁滞的约束。有意合成了PVP-OGI，以研究主链结构对并五苯OTFTs电学特性的影响。改善的PVP-OGI通过诱导环状酚骨架结构合成，从而导致羟基的定位。改进的基于树脂的OTFT在潮湿空气中的运行产生的磁滞行为可以证明，替代的PVP树脂几乎无磁滞驱动，并具有极低的慢极化特性，具有出色的空气稳定性。证实在基于PVP-OGI的TFT器件中观察到的磁滞变化与介电体中羟基和水分的比例有关；但是，通过改善骨架结构（如PVP-OGI的环状苯酚骨架），磁滞现象可能会受到另一种方法的约束。

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来源
《Organic Electronics 》 |2011年第6期| p.1043-1047| 共5页
作者
Hyoungjin Kim; Dongwoo Kim; Junyoung Lee; Hyunwook So; Junghun Lee; Byunguk Kim; MunPyo Hong;
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作者单位

Department of Display and Semiconductor Physics, Korea University, Chungnam, Republic of KoreaMaterials Business Dept. I, Dongjin Semichem, Co. Ltd., Gyeong-Do, Republic of Korea;

Department of Display and Semiconductor Physics, Korea University, Chungnam, Republic of KoreaMaterials Business Dept. I, Dongjin Semichem, Co. Ltd., Gyeong-Do, Republic of Korea;

Department of Display and Semiconductor Physics, Korea University, Chungnam, Republic of KoreaMaterials Business Dept. I, Dongjin Semichem, Co. Ltd., Gyeong-Do, Republic of Korea;

Department of Display and Semiconductor Physics, Korea University, Chungnam, Republic of KoreaMaterials Business Dept. I, Dongjin Semichem, Co. Ltd., Gyeong-Do, Republic of Korea;

Department of Display and Semiconductor Physics, Korea University, Chungnam, Republic of KoreaMaterials Business Dept. I, Dongjin Semichem, Co. Ltd., Gyeong-Do, Republic of Korea;

Department of Display and Semiconductor Physics, Korea University, Chungnam, Republic of KoreaMaterials Business Dept. I, Dongjin Semichem, Co. Ltd., Gyeong-Do, Republic of Korea;

Department of Display and Semiconductor Physics, Korea University, Chungnam, Republic of KoreaMaterials Business Dept. I, Dongjin Semichem, Co. Ltd., Gyeong-Do, Republic of Korea;

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正文语种 eng
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关键词
organic thin film transistor; polymeric gate insulator; alternative poly (4-vinyl phenol) (pvp); phenolic resin; hysteresis; localized hydroxyl group;

机译：有机薄膜晶体管;聚合物栅绝缘体;聚（4-乙烯基苯酚）（pvp）;酚醛树脂;磁滞;局部羟基;

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New approach for constrain of hysteresis in organic gate insulator based organic thin film transistor with amelioration of backbone structure

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