用于表皮电子设备的可拉伸和可渗透电极的最新进展

Yanyan Li, Yuping Sun, Qianying Lu, Yanqing Lu, Desheng Kong
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引用次数: 0

摘要

表皮电子设备是一种新兴的可穿戴平台,它将可变形的设备附着在皮肤上。表皮电极是这项技术的重要组成部分,因为它们为皮肤提供了一个直接的电子接口,用于传感和刺激。然而,目前大多数电极都建立在非渗透性弹性体基底上,这可能会限制它们以非侵入方式长期、持续地工作。幸运的是,最近在导电材料和制造技术方面取得的进步使高性能表皮电极成为可能,而且佩戴舒适。为了跟踪最新进展,这篇综述文章首先介绍了可渗透结构的设计和导电电极的制备。随后的讨论阐述了实现理想特性(如高导电性、可拉伸性、皮肤粘附性和生物相容性)的有效策略。此外,还总结了可渗透表皮电极的新兴应用。最后,本综述总结了透气表皮电极目前面临的挑战和未来的发展方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Recent Advances in Stretchable and Permeable Electrodes for Epidermal Electronics

Recent Advances in Stretchable and Permeable Electrodes for Epidermal Electronics

Epidermal electronics is an emerging wearable platform that involves attaching deformable forms of devices to the skin. Epidermal electrodes represent a vital component of this technology, as they provide a direct electronic interface with the skin for sensing and stimulation. However, most of the current electrodes are built on non-permeable elastomer substrates, which can limit their long-term, continuous operations in a non-invasive manner. Fortunately, recent advancements in conductive materials and fabrication techniques have enabled high-performance epidermal electrodes that are comfortable to wear. In order to track the latest progress, this review article first introduces the designs of permeable structures and the preparation of conductive electrodes. The subsequent discussion elaborates on effective strategies to achieve desirable properties, such as high conductivity, stretchability, skin adhesion, and biocompatibility. The emerging applications of permeable epidermal electrodes are also summarized. Finally, this review concludes with the current challenges and future directions of breathable epidermal electrodes.

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