Multifunctional Conductive Hydrogel for Sensing Underwater Applications and Wearable Electroencephalogram Recording

材料科学 可穿戴计算机 水下 可穿戴技术 纳米技术 导电体 计算机科学 嵌入式系统 复合材料 海洋学 地质学
作者
Chuyang Xiang,Chaoyao Wen,Ziqi Wang,Yu Tian,Ying Li,Yuantao Liao,Mingjie Liu,Yangengchen Zhong,Yeying Lin,Chengyun Ning,Lei Zhou,Rumin Fu,Guoxin Tan
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:17 (5): 8327-8339 被引量:20
标识
DOI:10.1021/acsami.4c19660
摘要

Flexible electronics have been rapidly advancing and have garnered significant interest in monitoring physiological activities and health conditions. However, flexible electronics are prone to detachment in humid environments, so developing human-friendly flexible electronic devices that can effectively monitor human movement under various aquatic conditions and function as flexible electrodes remains a significant challenge. Here, we report a strongly adherent, self-healing, and swelling-resistant conductive hydrogel formed by combining the dual synergistic effects of hydrogen bonding and dipole–dipole interactions. The hydrogel has a commendable linear operating range (∼200% strain, GF = 1.44), stability of electrical signals for 200 cycles, excellent conductivity (2.18 S m –1 ), self-healing properties (∼30 min), and durable underwater adhesion stability. The conductive hydrogel can be developed into a flexible electronic sensor for detecting motion signals, such as joint flexion and swallowing, as well as for real-time underwater communication using Morse code. Additionally, the integration of this polymer with a low contact impedance facilitates real-time, high-fidelity detection of electroencephalogram (EEG) signals, serving as a flexible electrode. It is believed that our hydrogel will have good prospects in future wearable electronics.
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