摩擦电效应
纳米发生器
可穿戴技术
自愈
可穿戴计算机
材料科学
耐久性
数码产品
标度系数
柔性电子器件
纳米技术
能量收集
复合材料
电气工程
制作
压电
计算机科学
功率(物理)
工程类
嵌入式系统
病理
替代医学
物理
医学
量子力学
作者
Lijie Sun,Hongfei Huang,Qiyu Ding,Yifan Guo,Wei Sun,Zhuangchun Wu,Minglin Qin,Qingbao Guan,Zhengwei You
标识
DOI:10.1007/s42765-021-00086-8
摘要
Ionogels with high transparency, stretchability and self-healing capability show great potential for wearable electronics. Here, a kind of highly transparent, stretchable and self-healable ionogels are designed using double physical cross-linking including hydrogen bonding and dipole–dipole interaction. Owing to the dynamic and reversible nature of the ion–dipole interaction and hydrogen bonds of polymeric chains, the ionogel possesses good self-healing capability. The multifunctional sensors for strain and temperature are fabricated based on ionogel. The ionogel can serve as strain sensor that exhibited high sensitivity [gauge factor (GF) = 3.06] and durability (1000 cycles) to a wide range of strains (0–300%). Meanwhile, the ionogel shows rapid response to temperature, due to the temperature dependence of its ionic conductivity. Furthermore, the ionogel fibers with excellent antifreezing (− 20 °C) capability are fabricated, and the fibers show the good sensing performance to human motions and temperature. Importantly, the antifreezing ionogel-based triboelectric nanogenerator (ITENG) is assembled for efficient energy harvesting. The ITENG shows a short circuit current (ISC) of 6.1 μA, open circuit voltage (VOC) of 115 V, and instantaneous peak power density of 334 mW m−2. This work provides a new strategy to design ionogels for the advancement of wearable electronics.
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