用于污渍感应和心电图监测的生物启发型超强湿粘深层共晶溶剂凝胶

Jinxue Yang, Xuhang Zhang, Zhenjie Zhao, Xue Wang, Zhenhu Liang, Yongri Liang, Ying Dan Liu
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引用次数: 0

摘要

水凝胶的机械性能较低,在湿界面上容易从水合层脱落,这限制了其作为粘性柔性传感器的应用。本研究复制了贻贝粘蛋白的组成和结构,使用含有齐聚物和 N-羟乙基丙烯酰胺的磺酰甜菜碱(SBMA)在深共晶溶剂中聚合,并与聚多巴胺网络结合,形成了一种具有超强湿粘附性的仿生共晶凝胶。广泛的氢键和静电相互作用可有效抑制水的侵蚀。这些动态键还赋予了凝胶自愈合特性,在室温下愈合 48 小时后,自愈合效率达到 55.45%。SBMA 中的齐聚物能优先与水反应,形成水合外壳,从而保护氢键,增强凝胶优异的耐水性和粘附性。凝胶在湿基材上的剥离强度可达 220.71 N m-1,拉伸强度可达 1.01 MPa。此外,它在低温和高温下都具有良好的质量稳定性。这种共晶凝胶有望用于柔性电子设备,并能在湿皮肤上灵敏地检测人体运动和生物电脉冲。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Bioinspired Superstrong, Wet Adhesive Deep Eutectic Solvent‐Based Gels for Stain Sensing and ECG Monitoring

Bioinspired Superstrong, Wet Adhesive Deep Eutectic Solvent‐Based Gels for Stain Sensing and ECG Monitoring
Low mechanical properties and easy detachment from the hydration layer at the wet interface of hydrogel limit its application as an adhesive‐flexible sensor. In this study, the composition and structure of mussel mucoprotein are replicated using sulfonyl betaine (SBMA) containing zwitterion and N‐hydroxyethyl acrylamide to be polymerized in deep eutectic solvents and integrated with a polydopamine network to create a bionic eutectic gel with exceptionally strong and wet adhesion. Water erosion is effectively inhibited by the extensive hydrogen bond and electrostatic interactions. These dynamic bonds also impart self‐healing properties to the gel, showing a self‐healing efficiency of 55.45% after 48 h healing at room temperature. The zwitterion in SBMA can preferentially react with water to form a hydrated shell to protect the hydrogen bonds and enhance the exceptional water resistance and adhesion of the gel. The peel strength of the gel on a wet substrate is up to 220.71 N m−1, and its tensile strength can reach 1.01 MPa. It also has good mass stability at both low and high temperatures. This eutectic gel has the potential to be used in flexible electronic devices and can detect human movement and bioelectrical impulses on wet skin with great sensitivity.
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