自粘
胶粘剂
汗水
汗腺
电生理学
材料科学
纳米技术
神经科学
心理学
医学
图层(电子)
内科学
作者
Huarun Liang,Mengjia Zhu,Shuo Li,Haomin Wang,Donghang Li,Xiaoping Liang,Haojie Lü,Xun‐En Wu,Haoxuan Ma,Nan Liu,Yingying Zhang
标识
DOI:10.1021/acsmaterialslett.4c01748
摘要
Electrophysiological monitoring is essential in healthcare and life sciences, yet conventional Ag/AgCl electrodes face challenges such as interfacial instability and motion artifacts. Herein, we propose a sweat-enhanced electrode design with a double-network hydrogel, comprising Ca2+-modified silk fibroin (SF) and poly(acrylic acid) grafted with N-hydroxysuccinimide ester (PAA-NHS). The obtained biocomposite, SF-PAA-NHS (BioSP), exhibits strong skin adhesion through covalent cross-linking and intermolecular forces, achieving an interfacial toughness of 411 J m–2. Upon sweating, SF enhances adhesion by strengthening molecular mobility and mechanical interlocking, resulting in a nearly 23% increase in interfacial toughness. Additionally, sweat electrolytes boost BioSP’s ionic conductivity by about 45%, enhancing its electrophysiological monitoring capabilities. BioSP can also be combined with elastomers for excellent antidrying performance. Finally, high-fidelity and long-duration electrophysiological measurements validate the superior performance of the sweat-enhanced electrode, representing a significant advancement in skin electrode technology for reliable and durable monitoring on dynamic and sweaty tissue.
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