材料科学
电极
聚乙二醇
纳米技术
粘附
生物相容性材料
聚合
电生理学
连接器
生物医学工程
信号(编程语言)
纳米孔
复合材料
PEG比率
弹性体
化学工程
光电子学
聚乙烯
磁导率
作者
Yì Wáng,Binbin Zhai,Jing Zhang,Hanyang Ning,Qi He,Tinghao Wu,Kang Li,Chi Zhang,Yanyan Luo,Aiping Chi,Wei Ren,Zhongshan Liu,Yu Fang
标识
DOI:10.1002/adfm.202524980
摘要
ABSTRACT To meet the requirements for long‐term electrophysiological signal recording and fine muscle motion monitoring, the development of ultrathin, stretchable, skin‐conformal, and breathable dry electrodes is highly desirable. In this work, we present a flexible crosslinked nanofilm coated with silver nanowires to fabricate ultrathin dry electrodes. The nanofilm is synthesized through air‐liquid interfacial polymerization using a biocompatible polyethylene glycol (PEG)‐containing linker and a calix[4]arene derivative. The incorporation of acyl‐hydrazone and PEG moieties ensures strong adhesion and excellent skin conformality. After depositing silver nanowires on one side, the resulting electrode—with a thickness of only 400 nm—demonstrates a relatively low Young's modulus of 3.55 MPa, a sheet resistance of 4.95 Ω sq −1 , great adhesion (36 N m −1 ), high gas permeability and low cytotoxicity. Multimodal sensing experiments confirm that nanofilm electrodes can detect subtle motions when attached to various body parts, including finger, elbow, wrist, knuckle, and knee. Furthermore, we integrate nanofilm electrodes with a bio‐signal recording system, successfully acquiring high‐quality electrocardiograms and electromyograms, as well as monitoring large muscle and fine muscle motions, where the latter is particularly challenging to record. Moreover, the combination of a deep learning algorithm enables the recognition of finger movements with high accuracy.
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