| A fully-packaged ship-shaped hybrid nanogenerator for blue energy harvesting toward seawater self-desalination and self-powered positioning H Wang, Q Zhu, Z Ding, Z Li, H Zheng, J Fu, C Diao, X Zhang, J Tian, Y Zi Nano Energy 57, 616-624, 2019 | 134 | 2019 |
| A universal standardized method for output capability assessment of nanogenerators X Xia, J Fu, Y Zi Nature communications 10 (1), 4428, 2019 | 92 | 2019 |
| Blue energy collection toward all‐hours self‐powered chemical energy conversion N Zhai, Z Wen, X Chen, A Wei, M Sha, J Fu, Y Liu, J Zhong, X Sun Advanced Energy Materials 10 (33), 2001041, 2020 | 77 | 2020 |
| Achieving ultrahigh output energy density of triboelectric nanogenerators in high‐pressure gas environment J Fu, G Xu, C Li, X Xia, D Guan, J Li, Z Huang, Y Zi Advanced Science 7 (24), 2001757, 2020 | 72 | 2020 |
| On the force and energy conversion in triboelectric nanogenerators G Xu, X Li, X Xia, J Fu, W Ding, Y Zi Nano Energy 59, 154-161, 2019 | 67 | 2019 |
| Standardization of triboelectric nanogenerators: Progress and perspectives X Li, G Xu, X Xia, J Fu, L Huang, Y Zi Nano energy 56, 40-55, 2019 | 60 | 2019 |
| A paradigm shift fully self-powered long-distance wireless sensing solution enabled by discharge-induced displacement current H Wang, J Wang, K Yao, J Fu, X Xia, R Zhang, J Li, G Xu, L Wang, J Yang, ... Science advances 7 (39), eabi6751, 2021 | 54 | 2021 |
| Toward self-powered photodetection enabled by triboelectric nanogenerators Z Wen, J Fu, L Han, Y Liu, M Peng, L Zheng, Y Zhu, X Sun, Y Zi Journal of Materials Chemistry C 6 (44), 11893-11902, 2018 | 48 | 2018 |
| On the maximal output energy density of nanogenerators J Fu, X Xia, G Xu, X Li, Y Zi ACS nano 13 (11), 13257-13263, 2019 | 44 | 2019 |
| A coplanar‐electrode direct‐current triboelectric nanogenerator with facile fabrication and stable output G Xu, D Guan, X Yin, J Fu, J Wang, Y Zi EcoMat 2 (3), e12037, 2020 | 28 | 2020 |
| Tribophotonics: An emerging self-powered wireless solution toward smart city H Wang, J Fu, J Wang, L Su, Y Zi Nano Energy 97, 107196, 2022 | 26 | 2022 |
| Dynamics of triboelectric nanogenerators: a review G Xu, C Li, C Chen, J Fu, T Hou, Y Zi International Journal of Mechanical System Dynamics 2 (4), 311-324, 2022 | 21 | 2022 |
| Environmental lifecycle assessment of CO 2-filled triboelectric nanogenerators to help achieve carbon neutrality G Xu, X Li, J Fu, Y Zhou, X Xia, Y Zi Energy & Environmental Science 16 (5), 2112-2119, 2023 | 14 | 2023 |
| Liquid‐Interfaces‐Based Triboelectric Nanogenerator: An Emerging Power Generation Method from Liquid‐Energy Nexus J Fu, G Xu, H Wu, C Li, Y Zi Advanced energy and sustainability research 3 (9), 2200051, 2022 | 13 | 2022 |
| A general self-powered wireless sensing solution based on triboelectric-discharge effect H Wang, X Xia, J Fu, J Li, C Chen, Y Dai, Z Fan, G Hu, Y Zi Nano Energy 105, 107982, 2023 | 11 | 2023 |
| Insulator surface charge behaviors: from hazards to functionality C Li, J Fu, Y Zi, Y Cao IEEE Electrical Insulation Magazine 38 (3), 6-14, 2022 | 11 | 2022 |
| Thermal and Moisture Managing E‐Textiles Enabled by Janus Hierarchical Gradient Honeycombs Y Zhang, J Fu, Y Ding, AA Babar, X Song, F Chen, X Yu, Z Zheng Advanced Materials 36 (13), 2311633, 2024 | 9 | 2024 |
| Density of surface states: another key contributing factor in triboelectric charge generation G Xu, D Guan, J Fu, X Li, A Li, W Ding, Y Zi ACS Applied Materials & Interfaces 14 (4), 5355-5362, 2022 | 9 | 2022 |
| A nonlinear triboelectric nanogenerator with a broadened bandwidth for effective harvesting of vibration energy G Xu, J Fu, C Li, J Xing, C Chen, WH Liao, Z Wang, Y Zi IEnergy 1 (2), 236-242, 2022 | 7 | 2022 |
| Optical Emission from Triboelectric Gas Discharge toward Self‐Powered Gas Sensing J Fu, Z Song, G Xu, H Wang, X Li, J Wang, W Ding, W Ren, IM Lei, Y Zi Advanced Optical Materials 11 (9), 2202697, 2023 | 5 | 2023 |
Yunlong ZiAssociate Professor with tenure, Hong Kong University of Science and Technology - Guangzhou在 ust.hk 的电子邮件经过验证
