Influences of semiconductor morphology on the mechanical fatigue behavior of flexible organic electronics

Young-Joo Lee; Yong Uk Lee; Han-Wool Yeon; Hae-A-Seul Shin; Louise A. Evans; Young-Chang Joo

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Influences of semiconductor morphology on the mechanical fatigue behavior of flexible organic electronics

机译：半导体形态对柔性有机电子器件机械疲劳行为的影响

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The influence of crystalline morphology on the mechanical fatigue of organic semiconductors (OSCs) was investigated using 6,13-bis(triisopropylsilylethynyl)pentacene (TIPS-pentacene) as a crystalline OSC and poly(triarylamine) (PTAA) as an amorphous OSC. During cyclic bending, resistances of the OSCs were monitored using the transmission-line method on a metal-semiconductor-metal structure. The resistance of the TIPS-pentacene increased under fatigue damage in tensile-stress mode, but no such degradation was observed in the PTAA. Both OSCs were stable under compressive bending fatigue. The formation of intergranular cracks at the domain boundaries of the TIPS-pentacene was responsible for the degradation of its electrical properties under tensile bending fatigue.

机译：使用6,13-双（三异丙基甲硅烷基乙炔基）并五苯（TIPS-并五苯）作为晶体OSC和聚（三芳基胺）（PTAA）作为无定形OSC，研究了晶体形态对有机半导体（OSC）机械疲劳的影响。在循环弯曲过程中，使用传输线方法在金属-半导体-金属结构上监测OSC的电阻。在拉伸应力模式下的疲劳损伤下，TIPS-并五苯的电阻增加，但在PTAA中未观察到这种降解。两种OSC在压缩弯曲疲劳下均稳定。在TIPS-并五苯的晶界边界处形成晶间裂纹是导致其在拉伸弯曲疲劳下电性能下降的原因。

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《Applied Physics Letters》 |2013年第24期|241904.1-241904.4|共4页
作者
Young-Joo Lee; Yong Uk Lee; Han-Wool Yeon; Hae-A-Seul Shin; Louise A. Evans; Young-Chang Joo;
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作者单位

Department of Materials Science and Engineering, Seoul National University, 151-744 Seoul, South Korea;

Center for Process Innovation Limited, Thomas Wright Way, NETPark, Sedgefield, TS21 3FG County Durham, United Kingdom;

Department of Materials Science and Engineering, Seoul National University, 151-744 Seoul, South Korea;

Department of Materials Science and Engineering, Seoul National University, 151-744 Seoul, South Korea;

Center for Process Innovation Limited, Thomas Wright Way, NETPark, Sedgefield, TS21 3FG County Durham, United Kingdom;

Department of Materials Science and Engineering, Seoul National University, 151-744 Seoul, South Korea;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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1. Influences of semiconductor morphology on the mechanical fatigue behavior of flexible organic electronics [J] . Lee Young-Joo, Uk Lee Yong, Yeon Han-Wool, Applied Physics Letters . 2013,第24期

机译：半导体形态对柔性有机电子器件机械疲劳行为的影响
2. Evaluation of health and safety of mechanically fatigued rechargeable lithium polymer batteries for flexible electronics applications [J] . Kim J. Y., Yoo K. T., Kim D. O., Microelectronics & Reliability . 2019,第Sepa期

机译：挠性电子应用中机械疲劳可充电锂聚合物电池的健康和安全性评估
3. High performance n-type organic-inorganic nanohybrid semiconductors for flexible electronic devices [J] . Yerok Park, Kyu S. Han, Byoung H. Lee, Organic Electronics . 2011,第2期

机译：用于柔性电子设备的高性能n型有机无机纳米杂化半导体
4. Nanoparticles and organic semiconductors for flexible electronics [C] . Ulrich Hilleringmann, Julia Reker, Thorsten Meyers, Conference on Sensors, MEMS, and Electro-Optic Systems . 2019

机译：用于柔性电子器件的纳米粒子和有机半导体
5. Flexible electronics based on solution processable organic semiconductors and colloidal semiconductor nanocrystals [D] . Lai, Yuming 2014

机译：基于可溶液处理的有机半导体和胶体半导体纳米晶体的柔性电子产品
6. Mechanical Fatigue Behavior of Flexible Printed Organic Thin-Film Transistors under Applied Strain [O] . Tomohito Sekine, Daisuke Kumaki, Shizuo Tokito 2017

机译：施加应变下柔性印刷有机薄膜晶体管的机械疲劳行为
7. Mechanical Fatigue Behavior of Flexible Printed Organic Thin-Film Transistors under Applied Strain [O] . Tomohito Sekine, Daisuke Kumaki, Shizuo Tokito 2016

机译：应用应变下柔性印刷有机薄膜晶体管的机械疲劳行为

Influences of semiconductor morphology on the mechanical fatigue behavior of flexible organic electronics

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