Current-Enhanced Self-Sustainable Wearable Triboelectric Textile System for Healthcare Monitoring and Rehabilitation Applications

Tianyiyi He, Hao Wang, Chengkuo Lee
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Abstract

In this work, a facile and universal strategy to enhance the triboelectric output is proposed by the integration of a narrow-gap TENG textile (T-TENG) with a high-voltage diode and a textile-based switch. The closed-loop current of the diode-enhanced textile-based TENG (D-TENG) can be increased by 25 times, and the speed of the charging capacitor is 4 times larger than the conventional strategy. The soft, flexible, and thin characteristics of the D-TENG enable a moderate output under various operations even as it is randomly scrunched. Besides, the enhanced current can directly stimulate rat muscle and nerve. In addition, we demonstrate the capability of the D-TENG as a practical power source for wearable sensors by powering Bluetooth sensors for humidity and temperature sensing.
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用于健康监测和康复应用的电流增强自我可持续可穿戴摩擦电纺织系统
在这项工作中,提出了一种简单而通用的提高摩擦电输出的策略,即将窄间隙TENG纺织品(T-TENG)与高压二极管和基于纺织品的开关集成在一起。基于二极管增强纺织品的TENG (D-TENG)的闭环电流可提高25倍,充电电容器的速度比传统策略大4倍。D-TENG的柔软、灵活和薄的特性使其在各种操作下即使是随机挤压也能保持适度的输出。此外,增强电流可直接刺激大鼠肌肉和神经。此外,我们还演示了D-TENG作为可穿戴传感器的实用电源的能力,为蓝牙传感器提供湿度和温度传感。
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