Review of Fiber- or Yarn-Based Wearable Resistive Strain Sensors: Structural Design, Fabrication Technologies and Applications

Fei Huang, Jiyong Hu, Xiong Yan
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引用次数: 7

Abstract

Flexible textile strain sensors that can be directly integrated into clothing have attracted much attention due to their great potential in wearable human health monitoring systems and human–computer interactions. Fiber- or yarn-based strain sensors are promising candidate materials for flexible and wearable electronics due to their light weights, good stretchability, high intrinsic and structural flexibility, and flexible integrability. This article investigates representative conductive materials, traditional and novel preparation methods and the structural design of fiber- or yarn-based resistive strain sensors as well as the interconnection and encapsulation of sensing fibers or yarns. In addition, this review summarizes the effects of the conductive materials, preparation strategy and structures on the crucial sensing performance. Discussions will be presented regarding the applications of fiber- or yarn-based resistive strain sensors. Finally, this article summarizes the bottleneck of current fiber- or yarn-based resistive strain sensors in terms of conductive materials, fabrication techniques, integration and performance, as well as scientific understanding, and proposes future research directions.
基于纤维或纱线的可穿戴电阻应变传感器的研究进展:结构设计、制造技术及应用
柔性纺织品应变传感器可直接集成到服装中,在可穿戴人体健康监测系统和人机交互方面具有巨大的潜力,因此备受关注。基于纤维或纱线的应变传感器具有重量轻、拉伸性好、内在和结构柔韧性高、柔性可集成性好等优点,是柔性和可穿戴电子产品的理想候选材料。本文研究了基于纤维或纱线的电阻应变传感器的代表性导电材料、传统和新型制备方法、结构设计以及传感纤维或纱线的互连和封装。此外,综述了导电材料、制备策略和结构对关键传感性能的影响。讨论了基于纤维或纱线的电阻应变传感器的应用。最后,本文从导电材料、制作工艺、集成与性能、科学认识等方面总结了当前基于纤维或纱线的电阻应变传感器存在的瓶颈,并提出了未来的研究方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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