通过混合共结晶聚合物定制双交联聚合物-离子液体复合材料，用于可拉伸电子器件†。

IF 3.9 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

RSC Advances Pub Date : 2024-11-11 DOI:10.1039/D4RA05968A

Minjun Kim, Moonsung Park, Hobin Seon, Sohyun Choi, Hee Joong Kim and Sangwon Kim

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引用次数: 0

摘要

通过对具有相同单体对的两种共聚物进行溶液共混，可方便地调整用于可拉伸电子器件的双交联聚合物-离子液体复合材料（PICs）的行为。研究人员合成了两种不同摩尔比的聚丙烯酸二十二烷基酯-丙烯酸叔丁酯（poly(A22-r-tBA)）共聚物，并将其与离子液体（ILs）进行溶液浇铸，制成了三元 PICs。通过改变混合比例，研究了复合材料的相行为以及热和结构特性，从而深入了解了交联机制。观察到的变化能够系统地调节 PIC 的拉伸性、热稳定性和自愈能力，而这些正是可穿戴设备的关键特性。具有机械韧性和导电性的 PIC 被用于制造能够检测人体运动的应变传感器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Tailoring dual cross-linked polymer-ionic liquid composites by blending co-crystallizable polymers for stretchable electronics†

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Tailoring dual cross-linked polymer-ionic liquid composites by blending co-crystallizable polymers for stretchable electronics†

Facile adjustment of the behavior of dual cross-linked polymer-ionic liquid composites (PICs) for stretchable electronics was achieved via solution blending of two copolymers having the same monomer pairs. Two poly(docosyl acrylate-r-tert-butyl acrylate) (poly(A22-r-tBA)) copolymers with different molar ratios were synthesized and solution-cast with ionic liquids (ILs) to fabricate ternary PICs. The phase behavior and the thermal and structural properties of the composites were investigated by varying the mixing ratio, providing insights into the cross-linking mechanisms. The observed changes enabled systematic modulation of the stretchability, thermal stability, and self-healing capability of PICs, which are crucial attributes of wearable devices. Mechanically tough and conductive PICs were utilized in fabricating strain sensors capable of detecting human motion.

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来源期刊

RSC Advances chemical sciences-

CiteScore

7.50

自引率

2.60%

发文量

3116

审稿时长

1.6 months

期刊介绍： An international, peer-reviewed journal covering all of the chemical sciences, including multidisciplinary and emerging areas. RSC Advances is a gold open access journal allowing researchers free access to research articles, and offering an affordable open access publishing option for authors around the world.