自愈水凝胶
生物电子学
材料科学
导电聚合物
聚合物
纳米技术
导电体
离子键合
聚电解质
胶体
电极
生物相容性材料
化学工程
共价键
导电的
电化学
高分子化学
盐(化学)
纳米颗粒
离子电导率
电活性聚合物
自组装
聚吡咯
智能聚合物
电解质
表面改性
作者
Vidhika S. Damani,Xinran Xie,Rachel E. Daso,Khushboo Suman,Masoud Ghasemi,Weiran Xie,Ruiheng Wu,Yuhang Wu,Calvin L. Chao,Julian E. Alberto,Casey M. Lorch,Ai-Nin Yang,Dan My Nguyen,Tulaja Shrestha,Kayla Otero,Chun‐Yuan Lo,Darrin J. Pochan,Enrique D. Gomez,Jonathan Rivnay,Laure V. Kayser
标识
DOI:10.1038/s41467-025-66034-x
摘要
Electrically conductive hydrogels based on conducting polymers have found increased use in bioelectronics due to their low moduli that mimic biological tissues, their ability to transport both ionic and electronic charges, and their ease of processing in various form factors via printing or injection. Current approaches towards conductive hydrogels, however, rely on covalent and therefore irreversible crosslinking mechanisms. Here, we report a thermo-responsive conducting polymer (TR-CP) that undergoes a fully reversible non-covalent crosslinking at 35 °C within less than a minute to form conductive hydrogels. The TR-CP is based on a block polyelectrolyte complex, that self-assembles into well-defined colloidal particles in water which undergo an isovolumetric sol-gel transition just below physiological temperature. The hydrogels have tunable mechanical properties in the 20 to 200 Pa range, are stable at various pH and salt conditions, self-healing, injectable, and biocompatible in vitro and in vivo. We demonstrate that the TR-CPs can be used to fabricate sensitive, conformal and reusable electrodes for surface electromyography. This thermo-responsive material provides exciting opportunities for stimuli-responsive and adaptive bioelectronics.
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