可穿戴设备用PVDF压电介质的超柔性和耐用纺织电容器

Akanksha Rohit, Y. Kelestemur, S. Kaya
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引用次数: 0

摘要

我们介绍了带有压电介质的可穿戴电容贴片的设计和使用,用于跟踪运动,冲击,姿势,声学反馈和一般生物医学健康。电容元件基于超柔性和耐用的纺织电极和硅酮电介质,并添加了高达30% w/v比的聚偏氟乙烯-三氟乙烯(PVDF-TrFE)填料。安装在适当位置和几何形状上的贴片,可以捕捉到四肢特定动作之间的类型、强度和持续时间的关键信息,以及躯干的冲击和声音反应。这是由于PVDF-TrFE/硅胶复合介电层引起的压电响应($d _{33} =24 \pm 1$ pC/N)。此外,贴片的外围允许额外的紧凑型商业传感器与蓝牙微控制器平台集成在一起。因此,所提出的具有集成传感器阵列的压电电容贴片非常适合在新兴的传感器融合时代追求紧凑,经济高效,节能的解决方案,用于复杂的性能监测,现实的工人培训和高风险患者。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ultra-Flexible and Durable Textile Capacitors with Piezoelectric PVDF Dielectrics for Wearables
We present on the design and use of wearable capacitive patches with piezoelectric dielectrics for tracking motion, impact, posture, acoustic feedback and general biomedical health. The capacitive elements are based on ultra-flexible and durable textile electrodes and silicone dielectrics augmented with polyvinylidene fluoride - trifluoroethylene (PVDF-TrFE) fillers up to 30% w/v ratio. The resulting patches, deployed on appropriate locations and geometries, can capture critical information on the type, strength and duration between specific episodes of movements in the limbs as well as impact and acoustic response from the torso. This is possible due to the piezoelectric response ($d _{33} =24 \pm 1$ pC/N) induced by the PVDF-TrFE/Silicone composite dielectric layer. Moreover, the periphery of the patch allows for additional compact commercial sensors to be integrated along with a bluetooth-capable micro-controller platform. Consequently, the proposed piezoelectric capacitive patches with integrated arrays of sensors are ideally suited to pursue compact, cost-effective, power-efficient solutions in the emerging era of sensor fusion for complex performance monitoring, realistic worker training and for high-risk patients.
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