The following publications are possibly variants of this publication:
- A Low-Frequency Broadband Triboelectric Energy Harvester Based on Cantilever Beam with a GrooveXin Hu, Fang Cheng, Gang Tang, Bin Xu, Zhibiao Li, Xiaoxiao Yan, Dandan Yuan. hucc 2019: 483-492 [doi]
- Performance Dependence on Initial Free-End Levitation of a Magnetically Levitated Piezoelectric Vibration Energy Harvester With a Composite Cantilever BeamZhonghua Zhang, Junwu Kan, Shuyun Wang, Hongyun Wang, Can Yang, Song Chen. access, 5:27563-27572, 2017. [doi]
- Segmented Cantilever and Array Configurations for Wider Frequency Band and Higher Power Generation in Piezoelectric Vibration Energy HarvesterAicheng Zou, Jiefeng Li, Xingguo Han, Qunying Wang. wicomm, 2021, 2021. [doi]
- Electromagnetic Vibration Energy Harvester for Low Frequency and High Amplitude ApplicationsQinghong Zhang, Zhifei Wang, Siyu Deng, Weitao Dou, Lin Huang, Yunjia Li. iecon 2023: 1-5 [doi]
- Revised method of multiple scales for 1:2 internal resonance piezoelectric vibration energy harvester considering the coupled frequencyXiaochun Nie, Ting Tan, Zhimiao Yan, Zhitao Yan, Lingzhi Wang. cnsns, 118:107018, April 2023. [doi]
- A Low-Frequency Piezoelectric Actuator for Cantilever Beams: Design, Modeling, and Experimental EvaluationHenan Song, Ruirui Li, Chengwei Hou, Xiaobiao Shan. tim, 72:1-8, 2023. [doi]