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Electrical instabilities in organic semiconductors caused by trapped supercooled water

机译：滞留的过冷水导致有机半导体的电不稳定性

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It is reported that the electrical instability known as bias stress is caused by the presence of trapped water in the organic layer. Experimental evidence as provided by the observation of an anomaly occurring systematically at around 200 K. This anomaly is observed in a variety of materials, independent of the deposition techniques and remarkably coincides with a known phase transition of supercooled water. Confined water does not crystallize at 273 K but forms a metastable liquid. This metastable water behaves electrically as a charge trap, which causes the instability. Below 200 K the water finally solidifies and the electrical traps disappear. (c) 2006 American Institute of Physics.

机译：据报道，被称为偏应力的电不稳定性是由有机层中存留的水引起的。实验证据是通过观察大约200 K处系统发生的异常而提供的。这种异常在各种材料中都可以观察到，与沉积技术无关，并且与已知的过冷水的相变非常吻合。承压水在273 K时不会结晶，但会形成亚稳态液体。这种亚稳水在电学上表现为电荷陷阱，从而导致不稳定。低于200 K，水最终固化，电阱消失。（c）2006年美国物理研究所。

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Gomes Henrique L.; Stallinga Peter; Colle M.; De Leeuw D. M.; Biscarini F.;
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年度 2006
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1. Electrical instabilities in organic semiconductors caused by trapped supercooled water [J] . H. L. Gomes, P. Stallinga, M. Coelle, Applied Physics Letters . 2006,第8期

机译：滞留的过冷水导致有机半导体的电不稳定性
2. Spectroscopic Investigation of Oxygen- and Water-Induced Electron Trapping and Charge Transport Instabilities in n-type Polymer Semiconductors [J] . Riccardo Di Pietro, Daniele Fazzi, Tom B. Kehoe, Journal of the American Chemical Society . 2012,第36期

机译：n型聚合物半导体中氧和水诱导的电子俘获和电荷传输不稳定性的光谱研究
3. General rule for the energy of water-induced traps in organic semiconductors [J] . Zuo Guangzheng, Linares Mathieu, Upreti Tanvi, Nature Materials . 2019,第6期

机译：有机半导体中水诱捕器能量的一般规则
4. Tungsten via poisoning caused by water trapped in embedded organic low-K dielectrics [C] . Ikeda, K., Hasegawa, Interconnect Technology Conference, 2000. Proceedings of the IEEE 2000 International . 2000

机译：嵌入有机低K电介质中的水导致钨中毒
5. Fast transverse beam instability caused by electron cloud trapped in combined function magnets. [D] . Antipov, Sergey. 2017

机译：由结合在功能磁铁中的电子云引起的快速横梁不稳定性。
6. Semiconductors: High‐Performance Nonvolatile Organic Field‐Effect Transistor Memory Based on Organic Semiconductor Heterostructures of Pentacene/P13/Pentacene as Both Charge Transport and Trapping Layers (Adv. Sci. 8/2017) [O] . Wen Li, Fengning Guo, Haifeng Ling, 2017

机译：半导体：基于并五苯/ P13 /并五苯作为电荷传输层和陷阱层的有机半导体异质结构的高性能非易失性有机场效应晶体管存储器（Adv。Sci。8/2017）
7. Role of band states and trap states in the electrical properties of organic semiconductors: Hopping versus mobility edge model [O] . Mehraeen, Shafigh, Coropceanu, Veaceslav, Brédas, Jean-Luc 2013

机译：带状态和陷阱态在有机半导体电学性质中的作用：跳跃与迁移率边缘模型
8. Spectroscopy of Charge Carriers and Traps in Field-Doped Single Crystal Organic Semiconductors. [R] . Zhu, X. 2014

机译：场掺杂单晶有机半导体中电荷载流子和陷阱的光谱学。

Electrical instabilities in organic semiconductors caused by trapped supercooled water

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