Flexible Silica/MXene/Natural rubber film strain sensors with island chain structure for Healthcare monitoring

复合数 材料科学 天然橡胶 堆积 耐久性 导电体 电导率 复合材料 结构健康监测 灵敏度(控制系统) 重复性 纳米技术 电子工程 化学 工程类 物理化学 有机化学 色谱法
作者
Rong Xue,Chouxuan Wang,Zhongguo Zhao,Yanhui Chen,Jie Yang,Chang‐Ping Feng
出处
期刊:Journal of Colloid and Interface Science [Elsevier BV]
卷期号:650 (Pt B): 1235-1243 被引量:34
标识
DOI:10.1016/j.jcis.2023.07.093
摘要

The demand for flexible strain sensors with high sensitivity and durability has increased significantly. However, traditional sensors are limited in terms of their detection ranges and fabrications. In this work, a space stacking method was proposed to fabricate natural rubber (NR)/ Ti3C2Tx (MXene)/silica (SiO2) films that possessed exceptional electrical conductivity, sensitivity and reliability. The introduction of SiO2 into the NR/MXene composite enabled the construction of an "island-chain structure", which promoted the formation of conductive pathways and significantly improved the conductivity of the composite. Specifically, the electrical conductivity of the NR/MXene/10 wt%SiO2 composite was enhanced by about 200 times compared to that of the NR/MXene composite alone (from 0.07 to 13.4 S/m). Additionally, the "island-chain structure" further enhanced the sensing properties of the NR/MXene/10 wt%SiO2 composite, as evidenced by its excellent sensitivity (GF = 189.2), rapid response time (102 ms), and good repeatability over 10,000 cycles. The fabricated device demonstrates an outstanding mechanical sensing performance and can accurately detect human physiological signals. Specifically, the device serves as a strain detector, recognizing different strain signals by monitoring the movement of fingers, arms, and thighs. This study provides critical insights into composite manufacturing with exceptional conductivity, flexibility and stability, which are essential properties for creating high-performance flexible sensors.
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