期刊
NANO ENERGY
卷 83, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.nanoen.2021.105787
关键词
Energy harvester; Electret generator; Multi-phase; Enhancing power; DC output; Self-powered
类别
资金
- NSFC [51675305]
- NSF of Beijing [3202011]
The research demonstrates rotary disk multi-phase freestanding-electret generators (MFEGs) with enhanced output power and low ripple output via a novel design, which reduces generator capacitance and improves transferable charge density using the edge effect. Experimental results show that two- and three-phase FEGs have higher maximum output power than conventional single-phase FEGs, with two-phase FEGs having the highest output power. Further optimization of structural parameters can lead to significantly higher output power compared to optimal SFEGs. MFEGs connected to rectifier bridges can achieve almost DC outputs and provide a broad prospect for self-powered sensing by utilizing independent phases for different purposes.
Energy harvesters with higher power and direct-current (DC) output are of great significance for the energy supply of electronic devices. Here, we demonstrate rotary disk multi-phase freestanding-electret generators (MFEGs) with enhanced output power and low ripple output via a novel design. This novel design can enhance the output power by the reduction of generator capacitance and the improvement of the transferable charge density through positively utilizing the edge effect. The factors which both theoretical and experimental results show that the two- and three-phase FEGs have higher maximum output power than that of the conventional single-phase FEG (SFEG) and the two-phase FEG (TFEG) has the highest one. To further improve the output power, we optimize the structural parameters of TFEG and obtain 78.4% higher maximum output power than that of the optimal SFEG in experiment. Moreover, MFEGs connected to rectifier bridges obtain almost DC outputs. And since each phase of MFEGs is independent, the output of each phase can be utilized separately, for example, one as sensing signal and the other as energy output, providing a broad prospect for self-powered sensing.
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