长春工业大学教师个人主页宋晓峰--中文主页-- Self-Powered Multifunctional Organic Hydrogel Based on Poly(acrylic acid‑N‑isopropylacrylamide) for Flexible Sensing Devices

Self-Powered Multifunctional Organic Hydrogel Based on Poly(acrylic acid‑N‑isopropylacrylamide) for Flexible Sensing Devices: 点击次数：; 所属单位：化学工程学院; 发表刊物：Langmuir; 项目来源：省、市、自治区科技项目; 关键字：hydrogel sensor; 摘要：Human−machine interactions, medical monitoring, and flexible robots stimulate interest in hydrogel sensing devices. However, developing hydrogel sensors with multifunctions such as good mechanics, electroconductivity, resistance to solvent volatility as well as freezing, self-adhesion, and independence on external power supply remains a challenge. In the work, a poly(acrylic acidN-isopropylacrylamide) P(AA-NIPAm) organic hydrogel loading LiCl is prepared by ultraviolet cross-linking in ethylene glycol/H2O. The organic hydrogel exhibits favorable mechanical properties such as an elongation of break at 700% and a breaking strength of 20 KPa, can adhere to various substrates, and resists frost and solvent volatility. Especially, it possesses an excellent conductivity of 8.51 S/m. The organic hydrogel shows wide strain sensitivity based on resistance change, and the gauge factor reaches 5.84 in the range of 300−700%. It has short responsive and recuperative time and is still stable within 1000 rounds. Moreover, the organic hydrogel is also assembled into a self-powered device in which the open-circuit voltage is 0.74 V. The device can transform external stimuli such as stretching or compressing into the output current change, so it detects human motion effectively in real time. The work provides a perspective for electrical sensing engineering.; 合写作者：韩立彬,宋晓峰; 第一作者：宋晓峰; 论文类型：期刊论文; 卷号：39; 页面范围：1; 是否译文：否; 发表时间：2023-04-19

上一条： Self-Healing of Poly(vinyl Alcohol)/Poly(acrylic Acid)−Polytetrahydrofuran−Poly(acrylic Acid) Blend Boosted via Shape Memory

下一条： Hydroxyapatite cross-linked in situ polyvinyl alcohol hydrogel for bionic calcified cartilage layer