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Skin-Inspired Electronics Enabled by Supramolecular Polymeric Materials
CCS Chemistry ( IF 9.4 ) Pub Date : 2019-10-01 , DOI: 10.31635/ccschem.019.20190048
Kai Liu 1 , Yuanwen Jiang 2 , Zhenan Bao 2 , Xuzhou Yan 1
Affiliation  

Next-generation electronics that intimately interact with the human body would play crucial roles in future health monitors and early disease diagnosis. Skininspired electronics have been rapidly growing in the past decade to emulate the remarkable sensory and responsive nature of the human skin tissue. Toward the goal of combining excellent electrical performance and exceptional mechanical compliance, one key step is to identify basic building blocks that are mechanically adaptive and electronically active. Among the available material candidates, supramolecular polymeric materials (SPMs) and their composites are emerging as promising candidates because of their intrinsic skinlike mechanical properties such as stretchability, flexibility, self-healing, and toughness, as well as their tunable electrical properties achieved through chemical synthesis or physical blending. In this mini review article, we critically summarize recent progress in skin-inspired electronics, enabled by SPMs with a focus on the design of electronically active SPMs and their applications as principle components of electronic skins. Finally, we conclude by highlighting on challenges and opportunities of SPMs toward a new-generation skin-inspired electronics.

中文翻译:

超分子聚合物材料驱动的皮肤电子学

与人体密切互动的下一代电子设备将在未来的健康监测器和早期疾病诊断中发挥关键作用。在过去的十年中,受皮肤启发的电子产品迅速发展,以模仿人类皮肤组织非凡的感官和反应特性。为了将优异的电气性能和出色的机械柔韧性相结合的目标,关键一步是确定具有机械适应性和电子活性的基本构件。在可用的候选材料中,超分子聚合材料(SPM)及其复合材料由于其固有的类似于皮肤的机械性能(如可拉伸性,柔韧性,自愈性和韧性)而成为有前途的候选材料,以及通过化学合成或物理混合获得的可调电性能。在这篇迷你评论文章中,我们严格总结了受SPM启发的皮肤启发式电子技术的最新进展,重点是电子有源SPM的设计及其作为电子皮肤的主要组件的应用。最后,我们通过重点介绍SPM对新一代皮肤启发式电子产品的挑战和机遇。
更新日期:2020-06-24
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