Shandong Provincial Key Laboratory of Biochemical Engineering, College of Marine Science and Biological Engineering, Qingdao University of Science & Technology, Qingdao 266042, China; Key Laboratory of Biomass Energy and Material, Jiangsu Province 210037, China; Key Laboratory of Pulp and Paper Science & Technology of Ministry of Education/Shandong Province, Qilu University of Technology, Shandong Academy of Sciences, Jinan 250353, China.
Shandong Provincial Key Laboratory of Biochemical Engineering, College of Marine Science and Biological Engineering, Qingdao University of Science & Technology, Qingdao 266042, China.
Carbohydr Polym. 2020 Jul 15;240:116360. doi: 10.1016/j.carbpol.2020.116360. Epub 2020 Apr 25.
In this study, a versatile cellulose conductive hydrogels with outstanding mechanical properties, rapid self-healing performance, and excellent thermal sensitivity were successfully fabricated. The tensile strength and toughness of the gels gradually increased to 249 kPa and 1.57 MJ/m, respectively, and the healing efficiency of the hydrogels quickly reached 96.3% within 60 min. Importantly, the hydrogels exhibited a broad strain window (0-2066%) with a gauge factor ranging from 0.22 to 6.7, which could monitor of both obvious and subtle motion of the human body with high sensitivity and good repeatability. Moreover, the sensors also possessed good thermal sensitivity in the 0% and 400% state, and the response of the gel sensors increased from 8.3 to 87.9 when the temperature was increased from 35 to 85 °C. This study provides inspiration for the development of biocompatible and multifunctional cellulose-based wearable sensors with excellent mechanical, strain and temperature sensing and self-healing properties.
在这项研究中,成功制备了一种具有优异机械性能、快速自修复性能和出色热敏感性的通用纤维素导电水凝胶。水凝胶的拉伸强度和韧性逐渐提高至 249 kPa 和 1.57 MJ/m,并且水凝胶的愈合效率在 60 分钟内迅速达到 96.3%。重要的是,水凝胶具有较宽的应变窗口(0-2066%),其应变系数范围从 0.22 到 6.7,可对人体的明显和细微运动进行高灵敏度和良好重复性的监测。此外,这些传感器在 0%和 400%状态下也具有良好的热敏感性,当温度从 35°C 升高到 85°C 时,凝胶传感器的响应从 8.3 增加到 87.9。本研究为开发具有优异机械性能、应变和温度感应以及自修复性能的生物相容性多功能纤维素基可穿戴传感器提供了灵感。
