Yejin Lin scite author profile

Harvesting acoustic energy in the environment and converting it into electricity can provide essential ideas for self-powering the widely distributed sensor devices in the age of the Internet of Things. In this study, we propose a low-cost, easily fabricated and high-performance coniform Helmholtz resonator-based Triboelectric Nanogenerator (CHR-TENG) with the purpose of acoustic energy harvesting. Output performances of the CHR-TENG with varied geometrical sizes were systematically investigated under different acoustic energy conditions. Remarkably, the CHR-TENG could achieve a 58.2% higher power density per unit of sound pressure of acoustic energy harvesting compared with the ever-reported best result. In addition, the reported CHR-TENG was demonstrated by charging a 1000 μF capacitor up to 3 V in 165 s, powering a sensor for continuous temperature and humidity monitoring and lighting up as many as five 0.5 W commercial LED bulbs for acoustic energy harvesting. With a collection features of high output performance, lightweight, wide frequency response band and environmental friendliness, the cleverly designed CHR-TENG represents a practicable acoustic energy harvesting approach for powering sensor devices in the age of the Internet of Things.

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Deep learning-based visual detection of marine organisms: A survey

Ning

Chen

Liu

et al. 2023

Neurocomputing

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Yejin Lin

Cooperative output feedback adaptive control of uncertain nonlinear multi-agent systems with a dynamic leader

High performance additional mass enhanced film structure triboelectric nanogenerator for scavenging vibration energy in broadband frequency range

Multi-label classification for simultaneous fault diagnosis of marine machinery: A comparative study

A High-Performance Coniform Helmholtz Resonator-Based Triboelectric Nanogenerator for Acoustic Energy Harvesting

Deep learning-based visual detection of marine organisms: A survey

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