A novel triboelectric nanogenerator based on electrospun polyvinylidene fluoride nanofibers for effective acoustic energy harvesting and self-powered multifunctional sensing F Chen, Y Wu, Z Ding, X Xia, S Li, H Zheng, C Diao, G Yue, Y Zi Nano energy 56, 241-251, 2019 | 206 | 2019 |
A universal standardized method for output capability assessment of nanogenerators X Xia, J Fu, Y Zi Nature communications 10 (1), 4428, 2019 | 95 | 2019 |
Employing a MEMS plasma switch for conditioning high-voltage kinetic energy harvesters H Zhang, F Marty, X Xia, Y Zi, T Bourouina, D Galayko, P Basset Nature communications 11 (1), 3221, 2020 | 88 | 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 | 74 | 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 | 72 | 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 | 60 | 2021 |
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 |
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 | 46 | 2019 |
Recent advances of triboelectric nanogenerator based applications in biomedical systems X Xia, Q Liu, Y Zhu, Y Zi EcoMat 2 (4), e12049, 2020 | 45 | 2020 |
Metallic glass-based triboelectric nanogenerators X Xia, Z Zhou, Y Shang, Y Yang, Y Zi Nature Communications 14 (1), 1023, 2023 | 39 | 2023 |
Boosting the output performance of the triboelectric nanogenerator through the nonlinear oscillator D Guan, G Xu, X Xia, J Wang, Y Zi ACS applied materials & interfaces 13 (5), 6331-6338, 2021 | 39 | 2021 |
On the material-dependent charge transfer mechanism of the contact electrification X Xia, H Wang, H Guo, C Xu, Y Zi Nano Energy, 105343, 2020 | 34 | 2020 |
Inductor-free output multiplier for power promotion and management of triboelectric nanogenerators toward self-powered systems X Xia, H Wang, P Basset, Y Zhu, Y Zi ACS applied materials & interfaces 12 (5), 5892-5900, 2020 | 31 | 2020 |
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 | 15 | 2023 |
Multifunctional self-powered switch toward delay-characteristic sensors H Wang, J Wang, X Xia, D Guan, Y Zi ACS applied materials & interfaces 12 (20), 22873-22880, 2020 | 14 | 2020 |
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 |
Field‐assisted thermionic emission toward quantitative modeling of charge‐transfer mechanisms in contact electrification X Xia, H Wang, Y Zi SmartMat 3 (4), 619-631, 2022 | 6 | 2022 |
A flexible lightweight self-powered wireless metal detector enabled by triboelectric discharge effect H Wang, X Xia, J Fu, Z Song, W Ding, Y Dai, Y Zi Device 1 (6), 2023 | 4 | 2023 |
High-performance self-desalination powered by triboelectric–electromagnetic hybrid nanogenerator J Dai, X Xia, D Zhang, S He, D Wan, F Chen, Y Zi Water Research 252, 121185, 2024 | 1 | 2024 |
Biomimetic bimodal haptic perception using triboelectric effect S He, J Dai, D Wan, S Sun, X Yang, X Xia, Y Zi Science Advances 10 (27), eado6793, 2024 | | 2024 |