Piezoresistivity and electro-thermomechanical degradation of a conducting layer of nanoparticles integrated at the liquid crystal elastomer surface

Chambers M; Zalar B; Remskar M; Finkelmann H; Zumer S

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Piezoresistivity and electro-thermomechanical degradation of a conducting layer of nanoparticles integrated at the liquid crystal elastomer surface

机译：集成在液晶弹性体表面的纳米粒子导电层的压阻和电热机械降解

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When a liquid crystal elastomer (LCE) is reprocessed with conducting nanosized particles a conducting layer can be formed at the LCE surfaces. Here, two different LCE materials and two different conducting carbon particles were used. These four reprocessed LCEs were investigated when subject to a thermal phase transition and mechanical extension. Here it is shown that the resistance change with strain ('piezoresistivity') for these reprocessed LCEs can be described through lattice percolation and geometrical changes in the LCE shape. The mechanisms and rate of degradation are also described for the conducting layer as a function of the number of electro-thermomechanical strain cycles performed.

机译：当用导电纳米尺寸的颗粒对液晶弹性体（LCE）进行后处理时，可以在LCE表面上形成导电层。在此，使用了两种不同的LCE材料和两种不同的导电碳颗粒。当经历热相变和机械延伸时，研究了这四个再处理的LCE。此处显示，可以通过晶格渗滤和LCE形状的几何变化来描述这些经过再处理的LCE的电阻随应变的变化（“电阻率”）。还根据所执行的电热机械应变循环数来描述导电层的降解机理和降解速率。

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《Nanotechnology》 |2008年第15期|共6页
作者
Chambers M; Zalar B; Remskar M; Finkelmann H; Zumer S;
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原文格式 PDF
正文语种 eng
中图分类一般工业技术;
关键词
POLYMER COMPOSITE; TEMPERATURE; RESISTIVITY;

机译：聚合物复合材料;温度;电阻率;

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1. Piezoresistivity and electro-thermomechanical degradation of a conducting layer of nanoparticles integrated at the liquid crystal elastomer surface [J] . Chambers M, Zalar B, Remskar M, Nanotechnology . 2008,第15期

机译：集成在液晶弹性体表面的纳米粒子导电层的压阻和电热机械降解
2. Investigations on an integrated conducting nanoparticle-liquid crystal elastomer layer [J] . Martin Chambers, Bostjan Zalar, Maja Remskar Nanotechnology . 2007,第41期

机译：集成导电纳米粒子-液晶弹性体层的研究
3. Plastic Liquid Crystal Display with Polarizers Integrated Inorganic Conducting and Alignment Layers [J] . PHIL KOOK SON, SUK-WON CHOI, SUNG SOO KIM Molecular crystals and liquid crystals . 2013,第Null期

机译：带偏振器的塑料液晶显示器集成了无机导电层和取向层
4. Thermal, Mechanical and Magneto-Mechanical Characterization of Liquid Crystalline Elastomers Loaded with Iron Oxide Nanoparticles [C] . Stephany Herrera-Posada, Barbara O. Calcagno, Aldo Acevedo Materials Research Society symposium . 2015

机译：液晶弹性体的热，机械和磁力机械表征载氧化铁纳米粒子
5. Experimental studies on: I. Elastomers swollen with liquid crystalline diluents. II. Elastomers reinforced with fillers. III. Effect of crosslinking in solution on strain-induced crystallization. [D] . Al-ghamdi, Ali M. S. 1987

机译：实验研究：I.用液晶稀释剂溶胀的弹性体。二。用填料增强的弹性体。三，溶液中交联对应变诱导结晶的影响。
6. Preparation of Monodomain Liquid Crystal Elastomers and Liquid Crystal Elastomer Nanocomposites [O] . Hojin Kim, Bohan Zhu, Huiying Chen, 2016

机译：单畴液晶弹性体和液晶弹性体纳米复合材料的制备
7. Liquid Crystalline Elastomers: Microstructured Photopolymerization of Liquid Crystalline Elastomers in Oxygen‐Rich Environments (Adv. Funct. Mater. 40/2019) [O] . Joselle M. McCracken, Vincent P. Tondiglia, Anesia D. Auguste, 2019

机译：液晶弹性体：富氧环境中液晶弹性体的微结构化光聚合（ADV。Funct。Mater。40/2019）

Piezoresistivity and electro-thermomechanical degradation of a conducting layer of nanoparticles integrated at the liquid crystal elastomer surface

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