Supporting Information
| Supporting Information File 1: Video S1: Stretchability of the S-TENG. | ||
| Format: MP4 | Size: 15.4 MB | Download |
| Supporting Information File 2: Video S2: Power LEDs. | ||
| Format: MP4 | Size: 16.6 MB | Download |
| Supporting Information File 3: Video S3: Power a calculator. | ||
| Format: MP4 | Size: 36.2 MB | Download |
| Supporting Information File 4: Video S4: Light up letters of “HENU”. | ||
| Format: MP4 | Size: 15.5 MB | Download |
| Supporting Information File 5: Video S5: Placement in a shoe. | ||
| Format: MP4 | Size: 7.3 MB | Download |
| Supporting Information File 6: Video S6: Attachment to the waist. | ||
| Format: MP4 | Size: 17.4 MB | Download |
| Supporting Information File 7: Video S7: Robotic sensing. | ||
| Format: MP4 | Size: 35.3 MB | Download |
| Supporting Information File 8: Video S8: Human–computer interaction. | ||
| Format: MP4 | Size: 50.4 MB | Download |
Cite the Following Article
A stretchable triboelectric nanogenerator made of silver-coated glass microspheres for human motion energy harvesting and self-powered sensing applications
Hui Li, Yaju Zhang, Yonghui Wu, Hui Zhao, Weichao Wang, Xu He and Haiwu Zheng
Beilstein J. Nanotechnol. 2021, 12, 402–412.
https://doi.org/10.3762/bjnano.12.32
How to Cite
Li, H.; Zhang, Y.; Wu, Y.; Zhao, H.; Wang, W.; He, X.; Zheng, H. Beilstein J. Nanotechnol. 2021, 12, 402–412. doi:10.3762/bjnano.12.32
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Presentation Graphic
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Scholarly Works
- Nasri, I. F. M. A.; Za'Aba, Z.; Noorawzi, N.; Jusoh, W. N. W.; Yahaya, R.; Abidin, S. B. Z. Evaluation of the Electrical Performance of Single-Electrode Mode Triboelectric Nanogenerators Based on Different Conductor Materials. In 2024 IEEE Industrial Electronics and Applications Conference (IEACon), IEEE, 2024; pp 141–145. doi:10.1109/ieacon61321.2024.10797327
- Kao, F.-C.; Hung, S.-F.; Yang, C.-C.; Parashar, P.; Huang, C.-J.; Hsieh, M.-K.; Liao, J.; Lai, P.-L.; Fu, T.-S.; Tsai, T.-T.; Lin, Z.-H. Ultrasound-driven triboelectric and piezoelectric nanogenerators in biomedical application. Journal of Physics: Energy 2024, 6, 22002–022002. doi:10.1088/2515-7655/ad307c
- Gołąbek, J.; Strankowski, M. A Review of Recent Advances in Human-Motion Energy Harvesting Nanogenerators, Self-Powering Smart Sensors and Self-Charging Electronics. Sensors (Basel, Switzerland) 2024, 24, 1069. doi:10.3390/s24041069
- Zhang, Q.; Xin, C.; Shen, F.; Gong, Y.; Zi, Y.; Guo, H.; Li, Z.; Peng, Y.; Zhang, Q.; Wang, Z. L. Human body IoT systems based on the triboelectrification effect: energy harvesting, sensing, interfacing and communication. Energy & Environmental Science 2022, 15, 3688–3721. doi:10.1039/d2ee01590k
- Li, C.; Zhu, Y.; Sun, F.; Jia, C.; Zhao, T.; Mao, Y.; Yang, H. Research Progress on Triboelectric Nanogenerator for Sports Applications. Energies 2022, 15, 5807. doi:10.3390/en15165807
- Wang, Y.; Zhao, X.; Liu, Y.; Zhou, W. The effect of metal surface nanomorphology on the output performance of a TENG. Beilstein journal of nanotechnology 2022, 13, 298–312. doi:10.3762/bjnano.13.25
- Sun, M.; Li, Z.; Yang, C.; Lv, Y.; Yuan, L.; Shang, C.; Liang, S.; Guo, B.; Liu, Y.; Li, Z.; Luo, D. Nanogenerator-based devices for biomedical applications. Nano Energy 2021, 89, 106461. doi:10.1016/j.nanoen.2021.106461
