Recent Advances in Materials, Designs and Applications of Skin Electronics

IF 1.8 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Kuanming Yao;Yawen Yang;Pengcheng Wu;Guangyao Zhao;Lidai Wang;Xinge Yu
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引用次数: 2

Abstract

As electronic devices get smaller, more portable, and smarter, a new approach of realizing electronics in thin, soft, and even stretchable style that could be worn and attached to the skin, which is called skin electronics, has emerged and attracted much attention. To achieve well compliance, extend the maximum stretchability, promote the comfortability of wearing, and make the most use of the skin electronics, researchers are making efforts in different aspects. In this article, we summarized the recent advances in categories of materials science, design strategies and novel applications. Examples of skin electronics using various functional materials including piezoelectric, thermoelectric, etc., and soft conductive materials including PEDOT: PSS-based conductive polymer, carbon nanomaterials, metal-based materials and hydrogels were given. Different mechanics design strategies for enhancing mechanical performance and comfortability design strategies for better wearing experience were introduced. Lastly, practical applications of skin electronics in fields of smart healthcare and human-machine interface were discussed. Research focused on these aspects all boosted the development of skin electronics in different dimensions, with which combined together may help skin electronics take a leap into truly ubiquitous use in our daily life.
皮肤电子材料、设计与应用的最新进展
随着电子产品的小型化、便携化、智能化,一种可以穿在皮肤上的轻薄、柔软、甚至可拉伸的电子产品被称为“皮肤电子产品”,引起了人们的广泛关注。为了达到良好的顺应性,延长最大的拉伸性,提高穿着的舒适性,并最大限度地利用皮肤电子器件,研究人员正在不同方面进行努力。本文综述了近年来在材料科学分类、设计策略和新应用方面的进展。举例说明了采用压电、热电等多种功能材料和PEDOT: pss基导电聚合物、碳纳米材料、金属基材料和水凝胶等软导电材料的皮肤电子器件。介绍了提高机械性能的不同力学设计策略和改善穿着体验的舒适设计策略。最后,讨论了皮肤电子技术在智能医疗、人机界面等领域的实际应用。这些方面的研究都促进了皮肤电子产品在不同维度的发展,结合在一起可能会帮助皮肤电子产品飞跃到我们日常生活中真正无处不在的使用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.90
自引率
17.60%
发文量
10
审稿时长
12 weeks
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