The following publications are possibly variants of this publication:
- Overview of Power Management for Triboelectric NanogeneratorsChunlong Fang, Tong Tong, Tianzhao Bu, Yuanzhi Cao, Shaohang Xu, Youchao Qi, Chi Zhang. aisy, 2(2):1900129, 2020. [doi]
- Recent Progress of Switching Power Management for Triboelectric NanogeneratorsHan Zhou, Guoxu Liu, Jianhua Zeng, Yiming Dai, Weilin Zhou, Chongyong Xiao, Tianrui Dang, Wenbo Yu, Yuanfen Chen, Chi Zhang. sensors, 22(4):1668, 2022. [doi]
- Self-powered humidity sensor based on triboelectric nanogeneratorYuanjie Su, Guangzhong Xie, Si Wang, Huiling Tai, Qiuping Zhang, Hongfei Du, XiaoSong Du, Yadong Jiang. ieeesensors 2017: 1-3 [doi]
- Self-powered pressure sensors based on triboelectric nanogeneratorMengfei Xu, Kai Tao, Zhensheng Chen, Hao Chen. iecon 2020: 3498-3501 [doi]
- A power manager system with 78% efficiency for high-voltage triboelectric nanogeneratorsLichuan Luo, Dechun Bao, Wuqi Yu, Zhaohua Zhang, Tianling Ren. chinaf, 60(2), 2017. [doi]
- SATURN: A Thin and Flexible Self-powered Microphone Leveraging Triboelectric NanogeneratorNivedita Arora, Steven L. Zhang, Fereshteh Shahmiri, Diego Osorio, Yi-Cheng Wang, Mohit Gupta, Zhengjun Wang, Thad Starner, Zhong Lin Wang, Gregory D. Abowd. imwut, 2(2), 2018. [doi]
- Stackable Triboelectric Nanogenerators for Self-Powered Marine Monitoring BuoyJiale Dong, Hao Wang, Xiu Xiao, Taili Du, Yunpeng Zhao, Zhongqi Fan, Minyi Xu. nems 2021: 660-664 [doi]