An Ultrahigh-Strength Braided Smart Yarn for Wearable Individual Sensing and Protection

IF 17.2 1区 工程技术 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Kai Wang, Yunchu Shen, Tairan Wang, Zixin Li, Baoping Zheng, Zhijia Dong, Fanggang Ning, Gaoming Jiang, Gang Zhao, Chaoyu Chen, Pibo Ma
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Abstract

The insufficient comprehensive mechanical properties and inadequate flexibility of wearable sensors limit their body-protection capability, durability, and comfort. There are challenges in using flexible wearable devices for high-performance practical applications, especially on large scales. Here, an ultrahigh-strength ultra-high-molecular-weight polyethylene braided smart yarn (UBSY) has been designed and mass produced. It is based on triboelectric nanogenerators and prepared by combining commercial ultra-high-molecular-weight polyethylene yarn and conductive yarn with a cored biaxial braided structure. Structural parameters, including the ultra-high-molecular-weight polyethylene yarn diameter, twist, and braiding pitch, are optimized to balance the mechanical properties and electrical outputs. The prepared UBSYs are characterized based on a range of reliable properties, including ultrahigh tensile strength (194.83 N), excellent abrasive resistance (up to 306 abrasive cycles), great hydrophobicity (water contact angle of 115.49°), acid and alkali splash resistance, and decent triboelectric outputs (1.5 V, 3.0 nA, and 0.5 nC). An intelligent weft-knitted textile wearable sensor is fabricated with UBSY using a matured flat-knitting technique, which provides excellent mechanical strength, physical protection and comfort. Furthermore, a pair of smart elbow guards have been demonstrated to highlight UBSY-based wearable sensors’ potential in outdoor sports management. In addition, equipped with a satisfactory body protective capacity against various risks and matured preparation technologies, the UBSY-based wearable sensor provides a practical solution for large-scale applications of high-performance motion sensing in complex environments.

Graphical Abstract

Abstract Image

用于可穿戴个体感应和保护的超高强度编织智能纱线
可穿戴传感器的综合机械性能和柔韧性不足,限制了其对人体的保护能力、耐用性和舒适性。将柔性可穿戴设备用于高性能的实际应用,尤其是大规模应用,面临着诸多挑战。在此,我们设计并量产了一种超高强度超高分子量聚乙烯编织智能纱线(UBSY)。它基于三电纳米发电机,通过将商用超高分子量聚乙烯纱线和导电纱线结合在一起,采用有芯双轴编织结构制备而成。对超高分子量聚乙烯纱的直径、捻度和编织节距等结构参数进行了优化,以平衡机械性能和电输出。所制备的 UBSY 具有一系列可靠的特性,包括超高拉伸强度(194.83 N)、优异的耐磨性(高达 306 次磨蚀循环)、极佳的疏水性(水接触角 115.49°)、耐酸碱飞溅性和良好的三电输出(1.5 V、3.0 nA 和 0.5 nC)。UBSY 利用成熟的平针编织技术制造了一种智能纬编纺织可穿戴传感器,具有出色的机械强度、物理保护性和舒适性。此外,还展示了一副智能护肘,凸显了基于 UBSY 的可穿戴传感器在户外运动管理方面的潜力。此外,基于 UBSY 的可穿戴传感器具有令人满意的抗各种风险的身体保护能力和成熟的制备技术,为复杂环境下高性能运动传感的大规模应用提供了切实可行的解决方案。
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来源期刊
CiteScore
18.70
自引率
11.20%
发文量
109
期刊介绍: Advanced Fiber Materials is a hybrid, peer-reviewed, international and interdisciplinary research journal which aims to publish the most important papers in fibers and fiber-related devices as well as their applications.Indexed by SCIE, EI, Scopus et al. Publishing on fiber or fiber-related materials, technology, engineering and application.
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