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A flexible, adhesive and self-healable hydrogel-based wearable strain sensor for human motion and physiological signal monitoring

可穿戴计算机 材料科学 信号(编程语言) 人体运动 拉伤 胶粘剂 自粘 可穿戴技术 自愈 纳米技术 声学 运动(物理) 计算机科学 嵌入式系统 人工智能 物理 程序设计语言 替代医学 病理 图层(电子) 内科学 医学
作者
Shan Xia,Shixin Song,Fei Jia,Guanghui Gao
出处
期刊:Journal of Materials Chemistry B [Royal Society of Chemistry]
卷期号:7 (30): 4638-4648 被引量:344
标识
DOI:10.1039/c9tb01039d
摘要

The advent of hydrogel-based strain sensors has attracted immense research interest in artificial intelligence, wearable devices, and health-monitoring systems. However, the integration of the synergistic characteristics of good mechanical properties, self-adhesiveness, self-healing capability and high strain sensitivity for fabricating hydrogel-based strain sensors is still a challenge. Here, a multifunctional conductive hydrogel composed of a polyacrylamide (PAAm)/chitosan (CS) hybrid network is fabricated for wearable strain sensors. The PAAm network is cross-linked by hydrophobic associations, and the CS network is ionically cross-linked by carboxyl-functionalized multi-walled carbon nanotubes (c-MWCNTs). These two networks are further interlocked by physical entanglement and hydrogen bond interactions. The obtained hydrogels exhibit excellent flexibility, puncture resistance and self-healing capability because of the efficient energy dissipation of the dynamic cross-linking network. Moreover, the hydrogels exhibit self-adhesive behavior on various materials, including polytetrafluoroethylene, wood, glass, aluminum, rubber and skin. Notably, the hydrogels can be applied as soft human-motion sensors for real-time and accurate detection of both large-scale and small human activities, including joint motions, speaking, breathing, and even subtle blood pulsation. Therefore, it is anticipated that the flexible, self-adhesive, self-healing and conductive hydrogel-based strain sensor will have promising applications in artificial intelligence, soft robots, biomimetic prostheses, and personal health care.
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