基于微型高性能混合纳米发电机的可穿戴传感器,用于医疗健康监测

Biosensors Pub Date : 2024-07-25 DOI:10.3390/bios14080361
Jinjing Wu, Xiaobo Lin, Chengkai Yang, Sirui Yang, Chenning Liu, Yuanyuan Cao
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引用次数: 0

摘要

可穿戴传感器是将机械振动能量转换为电信号或其他形式输出的重要组件,广泛应用于医疗保健、灾难预警和交通领域。然而,对电池的依赖限制了可穿戴传感器的便携性,阻碍了它们在物联网领域的应用。为了解决这一问题,我们设计了一种小型化高性能混合纳米发电机(MHP-HNG),它结合了三电传感和电磁发电的功能以及小型化的优势。通过优化 TENG 和 EMG 的设计,该可穿戴传感器实现了 14.14 V 的电压输出和 49 mW 的功率输出。基于无线光通信和无线通信技术,该可穿戴传感器实现了传感、通信和自供电功能的一体化,有望实现健康监测、应急预警和康复辅助等功能,进一步拓展在医疗领域的潜在应用价值。
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Wearable Sensors Based on Miniaturized High-Performance Hybrid Nanogenerator for Medical Health Monitoring
Wearable sensors are important components, converting mechanical vibration energy into electrical signals or other forms of output, which are widely used in healthcare, disaster warning, and transportation. However, the reliance on batteries limits the portability of wearable sensors and hinders their application in the field of Internet of Things. To solve this problem, we designed a miniaturized high-performance hybrid nanogenerator (MHP-HNG), which combined the functions of triboelectric sensing and electromagnetic power generation as well as the advantages of miniaturization. By optimizing the design of TENG and EMG, the wearable sensor achieved a voltage output of 14.14 V and a power output of 49 mW. Based on the wireless optical communication and wireless communication technologies, the wearable sensor achieved the integration of sensing, communication, and self-powered function, which is expected to realize health monitoring, emergency warning, and rehabilitation assistance, and further extend the potential application value in the medical field.
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