Metasurface-enhanced multifunctional flag nanogenerator for efficient wind energy harvesting and environmental sensing
Wind energy, as a widely distributed and renewable energy resource, plays a crucial role in promoting self-powered wireless sensor networks and wind speed sensing. However, current research predominantly focuses on specific application purposes, lacking comprehensive investigations into integrated s...
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sg-ntu-dr.10356-1758062024-05-07T01:24:54Z Metasurface-enhanced multifunctional flag nanogenerator for efficient wind energy harvesting and environmental sensing Dong, Liwei Hu, Guobiao Zhang, Ye Ding, Wei Qu, Shuai Tang, Qian Zhao, Chaoyang Yang, Yaowen Yang, Fan School of Civil and Environmental Engineering Engineering Wind energy harvesting Triboelectric nanogenerator Wind energy, as a widely distributed and renewable energy resource, plays a crucial role in promoting self-powered wireless sensor networks and wind speed sensing. However, current research predominantly focuses on specific application purposes, lacking comprehensive investigations into integrated solutions. In this paper, a metasurface-enhanced multifunctional flag-type triboelectric nanogenerator (FTENG) is introduced, which enables efficient wind energy harvesting as well as accurate wind speed sensing over a wide range of wind speeds via the synergistic effect of metasurface treatment on the flagpole and flexible flag fixation approach. The flexible fixation maximally utilizes the upstream wake of metasurface configurations, boosting the energy harvesting power density by up to 23 times. The metasurface-enhanced FTENG with careful optimization, striking a balance between energy harvesting and sensing capabilities, achieves a linearity of 0.992 over a wind speed range of 2.3–14.4 m/s and a peak power density of 250 mW/m2. Finally, the FTENG demonstrates its excellent abilities to light LEDs, power the wireless sensor node (WSN), and serve as a self-powered environmental sensor. This work opens up an impactful possibility for developing versatile self-powered electronics by employing metasurface-enhanced wind energy harvesting techniques. This research is sponsored by the National Natural Science Foundation of China (Grant No. 12202276), Shanghai Pujiang Program (Grant No. 22PJ1412500), NTU grant 020671-00001. The first author acknowledges the financial support from the China Scholarship Council (Grant No. 202206260157) for supporting his joint training Ph.D. program at Nanyang Technological University. 2024-05-07T01:24:54Z 2024-05-07T01:24:54Z 2024 Journal Article Dong, L., Hu, G., Zhang, Y., Ding, W., Qu, S., Tang, Q., Zhao, C., Yang, Y. & Yang, F. (2024). Metasurface-enhanced multifunctional flag nanogenerator for efficient wind energy harvesting and environmental sensing. Nano Energy, 124, 109508-. https://dx.doi.org/10.1016/j.nanoen.2024.109508 2211-2855 https://hdl.handle.net/10356/175806 10.1016/j.nanoen.2024.109508 2-s2.0-85188026584 124 109508 en Nano Energy © 2024 Elsevier Ltd. All rights reserved. |
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Engineering Wind energy harvesting Triboelectric nanogenerator Dong, Liwei Hu, Guobiao Zhang, Ye Ding, Wei Qu, Shuai Tang, Qian Zhao, Chaoyang Yang, Yaowen Yang, Fan Metasurface-enhanced multifunctional flag nanogenerator for efficient wind energy harvesting and environmental sensing |
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Wind energy, as a widely distributed and renewable energy resource, plays a crucial role in promoting self-powered wireless sensor networks and wind speed sensing. However, current research predominantly focuses on specific application purposes, lacking comprehensive investigations into integrated solutions. In this paper, a metasurface-enhanced multifunctional flag-type triboelectric nanogenerator (FTENG) is introduced, which enables efficient wind energy harvesting as well as accurate wind speed sensing over a wide range of wind speeds via the synergistic effect of metasurface treatment on the flagpole and flexible flag fixation approach. The flexible fixation maximally utilizes the upstream wake of metasurface configurations, boosting the energy harvesting power density by up to 23 times. The metasurface-enhanced FTENG with careful optimization, striking a balance between energy harvesting and sensing capabilities, achieves a linearity of 0.992 over a wind speed range of 2.3–14.4 m/s and a peak power density of 250 mW/m2. Finally, the FTENG demonstrates its excellent abilities to light LEDs, power the wireless sensor node (WSN), and serve as a self-powered environmental sensor. This work opens up an impactful possibility for developing versatile self-powered electronics by employing metasurface-enhanced wind energy harvesting techniques. |
author2 |
School of Civil and Environmental Engineering |
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School of Civil and Environmental Engineering Dong, Liwei Hu, Guobiao Zhang, Ye Ding, Wei Qu, Shuai Tang, Qian Zhao, Chaoyang Yang, Yaowen Yang, Fan |
format |
Article |
author |
Dong, Liwei Hu, Guobiao Zhang, Ye Ding, Wei Qu, Shuai Tang, Qian Zhao, Chaoyang Yang, Yaowen Yang, Fan |
author_sort |
Dong, Liwei |
title |
Metasurface-enhanced multifunctional flag nanogenerator for efficient wind energy harvesting and environmental sensing |
title_short |
Metasurface-enhanced multifunctional flag nanogenerator for efficient wind energy harvesting and environmental sensing |
title_full |
Metasurface-enhanced multifunctional flag nanogenerator for efficient wind energy harvesting and environmental sensing |
title_fullStr |
Metasurface-enhanced multifunctional flag nanogenerator for efficient wind energy harvesting and environmental sensing |
title_full_unstemmed |
Metasurface-enhanced multifunctional flag nanogenerator for efficient wind energy harvesting and environmental sensing |
title_sort |
metasurface-enhanced multifunctional flag nanogenerator for efficient wind energy harvesting and environmental sensing |
publishDate |
2024 |
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https://hdl.handle.net/10356/175806 |
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1814047336328855552 |