材料科学
自愈水凝胶
肿胀 的
导电体
聚丙烯酸
韧性
复合材料
电导率
极限抗拉强度
丙烯酸
聚乙烯醇
水溶液
纳米技术
薄板电阻
导电聚合物
聚苯胺
吸水率
柔性电子器件
弯曲
电阻率和电导率
作者
Jiamin Liu,Chuanqi Wang,Ting Xie,Tiantian Gan,Xiwei Xu,Jingjing Tang,Liuting Mo,Zhigao Liu,Zhiyong Qin,Wei Gao,Zequan Li,Shuangliang Zhao
出处
期刊:Small
[Wiley]
日期:2025-09-27
卷期号:21 (46): e09549-e09549
被引量:7
标识
DOI:10.1002/smll.202509549
摘要
Abstract Conductive hydrogels attract much attention in applications such as flexible electronics and wearable sensors. However, the swelling characteristics of conductive hydrogels in aqueous environments not only limit their long‐term application but also adversely affect their performance. This study has developed a tough, anti‐swelling, highly conductive dual‐network water gel. Polyacrylic acid (PAA) and polyvinyl alcohol (PVA) are used as the backbone, with Zr⁴⁺ introduced to form metal chelation with the carboxyl groups of acrylic acid (AA), and borax forming a dynamic borate crosslinking structure with the PVA network. The prepared hydrogel exhibits a tensile strength of up to 0.92 MPa, toughness of 3.35 MJ m − 3 , a conductivity of 3.28 S m −1 , and excellent self‐healing capabilities (with a self‐healing efficiency of up to 99.17%). Its internal multi‐crosslinked structure gives it excellent mechanical properties and swelling resistance in marine environments, providing the conditions for hydrogel sensor (PAZr‐4 sensor) to function as highly efficient amphibious sensors. The PZAr‐4 sensor is used to monitor human movement in a simulated seawater environment. At the same time, a sensor array is constructed using this hydrogel as the basic unit. It is combined with machine learning algorithms to accurately and in real time track the movement of objects on its surface.
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