Electrical switching behavior from ultrathin potential barrier of self-assembly molecules tuned by interfacial charge trapping

Yun Li; Danfeng Qiu; Liqiang Cao; Chenxu Shao; Lijia Pan; Lin Pu; Jianbin Xu; Yi Shi

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Electrical switching behavior from ultrathin potential barrier of self-assembly molecules tuned by interfacial charge trapping

机译：通过界面电荷俘获调节自组装分子超薄势垒的电开关行为

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The investigation of the self-assembly molecules of n-octyltrichlorosilane (OTS) as an ultrathin potential barrier in an organic two-terminal structure is presented. Electrical switching behavior with a large increase in current density is observed, and the mechanism of the electrical transition is mainly related to the OTS potential barrier tuned by charge trapping at the interface of OTS with the organic semiconductor layer. The switching behavior reveals the importance of the interfacial properties of self-assembly molecules in controlling the vertical charge transport.

机译：提出了对正辛基三氯硅烷（OTS）的自组装分子作为有机两末端结构中的超薄势垒的研究。观察到具有大电流增加的电开关行为，并且电跃迁的机理主要与通过在OTS与有机半导体层的界面处俘获电荷而调整的OTS势垒有关。开关行为揭示了自组装分子的界面特性在控制垂直电荷传输中的重要性。

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来源
《Applied Physicsletters》 |2010年第13期|p.133303.1-133303.3|共3页
作者
Yun Li; Danfeng Qiu; Liqiang Cao; Chenxu Shao; Lijia Pan; Lin Pu; Jianbin Xu; Yi Shi;
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作者单位

National Laboratory of Microstructures and School of Electronic Science and Engineering,Nanjing University, Nanjing 210093, People's Republic of China;

National Laboratory of Microstructures and School of Electronic Science and Engineering,Nanjing University, Nanjing 210093, People's Republic of China;

National Laboratory of Microstructures and School of Electronic Science and Engineering,Nanjing University, Nanjing 210093, People's Republic of China;

National Laboratory of Microstructures and School of Electronic Science and Engineering,Nanjing University, Nanjing 210093, People's Republic of China;

National Laboratory of Microstructures and School of Electronic Science and Engineering,Nanjing University, Nanjing 210093, People's Republic of China;

National Laboratory of Microstructures and School of Electronic Science and Engineering,Nanjing University, Nanjing 210093, People's Republic of China;

Department of Electronic Engineering and Materials Science and Technology Research Center,The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong Special Administrative Region,People's Republic of China;

National Laboratory of Microstructures and School of Electronic Science and Engineering,Nanjing University, Nanjing 210093, People's Republic of China;

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1. Charge trapping at organic/self-assembly molecule interfaces studied by electrical switching behaviour in a crosspoint structure [J] . Li Y., Liu C., Pan L., Journal of Physics, D. Applied Physics: A Europhysics Journal . 2012,第2期

机译：通过交叉点结构中的电开关行为研究有机/自组装分子界面处的电荷俘获
2. Charge trapping at organic/self-assembly molecule interfaces studied by electrical switching behaviour in a crosspoint structure [J] . Li Y., Liu C., Pan L., Journal of Physics, D. Applied Physics: A Europhysics Journal . 2012,第2期

机译：通过交叉点结构中的电开关行为研究有机/自组装分子界面处的电荷俘获
3. Influence of lithium fluoride thickness on electrical switching behavior in a cross-point structure using self-assembly molecules [J] . Yu Wang, Qijing Wang, Lan Chen, Japanese journal of applied physics . 2014,第3期

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5. Charge trapping in polymer dielectrics and potentials at organic donor-acceptor junctions---the role of interface and bulk contributions. [D] . Alley, Olivia. 2016

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Electrical switching behavior from ultrathin potential barrier of self-assembly molecules tuned by interfacial charge trapping

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