Litcius/Paper detail

Spherical Magnetoelastic Generator for Multidirectional Vibration Energy Harvesting

Jing Xu, Trinny Tat, Xun Zhao, Xiao Xiao, Yihao Zhou, Junyi Yin, Kangrui Chen, Jun Chen

2023ACS Nano43 citationsDOI

Abstract

Vibration is a common, usually wasted energy, and an attractive target for sustainable electricity generation. In this work, we introduce a new working mechanism to the vibration energy harvesting community by contributing a spherical magnetoelastic generator (S-MEG), which permits multidirectional vibration and is highly adaptable to many natural oscillation frequencies, exhibiting a resonant frequency of 24 Hz and a relatively wide working bandwidth of 15 Hz in the low-frequency range. It also features a low internal impedance of 70 Ω, which can respectively deliver a maximum short-circuit current density of 7.962 A·m –2 and a power density of 15.1 mW·m –2 . To demonstrate the capability of S-MEG for ambient vibration energy harvesting, a 220 μF commercial capacitor was successfully charged to 2 V within 25 s, sustainably driving wearable bioelectronics for multiple physiological information monitoring. It could also harvest multidirectional vibration energy from both hand-shaking and bicycle-riding, generating approximately 2.5 mA and 6 mA alternating current from the motions, respectively, even with heavy perspiration or on a rainy day without the need for encapsulation. In summary, this work brings forth an appealing platform technology to the community of vibration energy harvesting, holding a collection of compelling features, including high current density, low inner impedance, intrinsic waterproofness, and scalability for large-scale vibration energy harvesting.

Topics & Concepts

Energy harvestingVibrationCapacitorElectrical impedanceElectrical engineeringPower densityElectricityAcousticsMaterials scienceVoltageGenerator (circuit theory)Electricity generationEnergy (signal processing)Power (physics)PhysicsEngineeringQuantum mechanicsInnovative Energy Harvesting TechnologiesAdvanced Sensor and Energy Harvesting MaterialsEnergy Harvesting in Wireless Networks