生物电子学
自愈水凝胶
材料科学
纳米技术
可穿戴计算机
接口(物质)
可穿戴技术
生物医学工程
生物传感器
计算机科学
复合材料
嵌入式系统
工程类
高分子化学
毛细管数
毛细管作用
作者
Chanhyuk Lim,Yongseok Joseph Hong,Jaebong Jung,Yoonsoo Shin,Sung‐Hyuk Sunwoo,Seungmin Baik,Ok Kyu Park,Seung Hong Choi,Taeghwan Hyeon,Ji Hoon Kim,Sangkyu Lee,Dae‐Hyeong Kim
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2021-05-07
卷期号:7 (19)
被引量:317
标识
DOI:10.1126/sciadv.abd3716
摘要
Hydrogels consist of a cross-linked porous polymer network and water molecules occupying the interspace between the polymer chains. Therefore, hydrogels are soft and moisturized, with mechanical structures and physical properties similar to those of human tissue. Such hydrogels have a potential to turn the microscale gap between wearable devices and human skin into a tissue-like space. Here, we present material and device strategies to form a tissue-like, quasi-solid interface between wearable bioelectronics and human skin. The key material is an ultrathin type of functionalized hydrogel that shows unusual features of high mass-permeability and low impedance. The functionalized hydrogel acted as a liquid electrolyte on the skin and formed an extremely conformal and low-impedance interface for wearable electrochemical biosensors and electrical stimulators. Furthermore, its porous structure and ultrathin thickness facilitated the efficient transport of target molecules through the interface. Therefore, this functionalized hydrogel can maximize the performance of various wearable bioelectronics.
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