Conductive Recyclable Organogel Composites

Rahimi AliReza; Herzog‐Arbeitman Abraham; García Jeannette M.

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Conductive Recyclable Organogel Composites

机译：导电复合材料可回收有机凝胶

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Abstract As the use of automation in industry accelerates, the development of flexible, electrically conducting materials with the requisite environmental resilience for impact‐resistant sensors, foldable electronics, and electrostatic shielding are needed; simultaneously, recyclability for these materials remains a crucial attribute. Traditional conductive stretchable materials, such as rubbers, are not recyclable, and hydrogel materials have limited applications due to water evaporation and operating temperature range. Comparatively, organogels can be formulated with enhanced tunability, matrix recyclability, and the ability to support many conductive fillers. Here, rheology, mechanical testing, and electrochemical impedance spectroscopy (EIS) characterize the nanoscale interactions between carbon fillers, the liquid phase, and the network matrix in hemiaminal dynamic covalent network (HDCN) organogels. HDCN chemical equilibria are shown to strongly influence macroscopic gel properties, while HDCN composites exhibit very high conductivities up to 9.95 mS cm ?1 appropriate for sensing applications, demonstrating promise as recyclable alternatives for conductive stretchable materials.

机译：的使用自动化在工业加速开发灵活的,导电材料和必要的环境耐韧性的影响量传感器,可折叠电子产品,静电屏蔽需要;材料仍然是一个重要的属性。传统导电柔性材料,如橡胶,不回收,水凝胶由于水材料有限的应用程序蒸发和操作温度范围。比较,有机凝胶可以制定增强的可调性,矩阵再循环能力,支持许多导电填料的能力。这里,流变学、机械测试和电化学阻抗谱(EIS)描述纳米尺度之间的相互作用碳填充剂、液相和网络矩阵在hemiaminal动态共价网络(HDCN)有机凝胶。强烈影响宏观凝胶属性,而HDCN复合材料表现出非常高导率达9.95厘米女士 ?应用程序,展示承诺是可回收的选择导电柔性材料。

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《Macromolecular materials and engineering》 |2019年第4期|1800583-1-1800583-5|共5页
作者
Rahimi AliReza; Herzog‐Arbeitman Abraham; García Jeannette M.;
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IBM Almaden Research CenterChemistry and Materials650 Harry Rd,San Jose,CA,95120,USA;

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原文格式 PDF
正文语种英语
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关键词
rubbers; Composites; conductivityrecyclabilityElectric screening;

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Conductive Recyclable Organogel Composites

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