Hybrid Triboelectric–Electromagnetic Nanogenerator Based on a Noncontact Pendulum Structure for Low-Frequency Vibration Monitoring and Energy Harvesting

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL
Xiangming Gao*, Mingkun Huang*, Yongju Wang and Shijie Zhang, 
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Abstract

Toward advancing energy sustainability, collecting low-frequency mechanical vibration energy from the environment has become an important research area. This paper introduces the design and implementation of a noncontact pendulum-structured hybrid triboelectric–electromagnetic nanogenerator (NCP-HNG) for monitoring low-frequency vibrations, continuously collecting low-frequency mechanical energy, and converting this energy into electricity. Design of the pendulum structure allows the generator to efficiently capture vibrations under low-frequency conditions, thus improving energy conversion efficiency and enabling more effective environmental energy harvesting. Through optimized design and energy management circuits, the NCP-HNG exhibits efficient charging, continuously collecting energy from low-frequency vibration environments and showing charging of a 100 mAh lithium battery to 3.30 V in just 12 min. The use of noncontact mode significantly reduces material wear, providing the device with a longer life span. Consequently, it offers a reliable self-powered energy solution for wireless sensor networks, health monitoring devices, and infrastructure health monitoring, among other fields.

Abstract Image

基于非接触摆结构的三电-电磁混合纳米发电机,用于低频振动监测和能量收集
为推动能源的可持续发展,从环境中收集低频机械振动能量已成为一个重要的研究领域。本文介绍了一种非接触摆式结构混合三电电磁纳米发电机(NCP-HNG)的设计与实现,该发电机用于监测低频振动,持续收集低频机械能,并将这些能量转化为电能。摆锤结构的设计使发电机能够有效捕捉低频条件下的振动,从而提高能量转换效率,实现更有效的环境能量收集。通过优化设计和能量管理电路,NCP-HNG 实现了高效充电,可持续从低频振动环境中收集能量,仅需 12 分钟即可将 100 mAh 锂电池充电至 3.30 V。非接触模式的使用大大减少了材料磨损,延长了设备的使用寿命。因此,它为无线传感器网络、健康监测设备和基础设施健康监测等领域提供了可靠的自供电能源解决方案。
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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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