| A universal self-charging system driven by random biomechanical energy for sustainable operation of mobile electronics S Niu, X Wang, F Yi, YS Zhou, ZL Wang Nature communications 6 (1), 8975, 2015 | 658 | 2015 |
| Sustainably powering wearable electronics solely by biomechanical energy J Wang, S Li, F Yi, Y Zi, J Lin, X Wang, Y Xu, ZL Wang Nature communications 7 (1), 12744, 2016 | 637 | 2016 |
| Triboelectric nanogenerator based on fully enclosed rolling spherical structure for harvesting low‐frequency water wave energy X Wang, S Niu, Y Yin, F Yi, Z You, ZL Wang Advanced Energy Materials 5 (24), 1501467, 2015 | 480 | 2015 |
| A highly shape-adaptive, stretchable design based on conductive liquid for energy harvesting and self-powered biomechanical monitoring F Yi, X Wang, S Niu, S Li, Y Yin, K Dai, G Zhang, L Lin, Z Wen, H Guo, ... Science advances 2 (6), e1501624, 2016 | 316 | 2016 |
| Ti 3 C 2 T x MXene for electrode materials of supercapacitors R Ma, Z Chen, D Zhao, X Zhang, J Zhuo, Y Yin, X Wang, G Yang, F Yi Journal of Materials Chemistry A 9 (19), 11501-11529, 2021 | 251 | 2021 |
| Stretchable and waterproof self-charging power system for harvesting energy from diverse deformation and powering wearable electronics F Yi, J Wang, X Wang, S Niu, S Li, Q Liao, Y Xu, Z You, Y Zhang, ZL Wang ACS nano 10 (7), 6519-6525, 2016 | 197 | 2016 |
| Harvesting ambient vibration energy over a wide frequency range for self-powered electronics X Wang, S Niu, F Yi, Y Yin, C Hao, K Dai, Y Zhang, Z You, ZL Wang ACS nano 11 (2), 1728-1735, 2017 | 196 | 2017 |
| Bioinspired stretchable triboelectric nanogenerator as energy-harvesting skin for self-powered electronics X Wang, Y Yin, F Yi, K Dai, S Niu, Y Han, Y Zhang, Z You Nano Energy 39, 429-436, 2017 | 193 | 2017 |
| Self-powered gait pattern-based identity recognition by a soft and stretchable triboelectric band Y Han, F Yi, C Jiang, K Dai, Y Xu, X Wang, Z You Nano Energy 56, 516-523, 2019 | 116 | 2019 |
| Solar thermal-driven capacitance enhancement of supercapacitors F Yi, H Ren, K Dai, X Wang, Y Han, K Wang, K Li, B Guan, J Wang, ... Energy & Environmental Science 11 (8), 2016-2024, 2018 | 106 | 2018 |
| Flexible temperature sensors based on carbon nanomaterials Z Chen, D Zhao, R Ma, X Zhang, J Rao, Y Yin, X Wang, F Yi Journal of Materials Chemistry B 9 (8), 1941-1964, 2021 | 88 | 2021 |
| Fabrication of a symmetric micro supercapacitor based on tubular ruthenium oxide on silicon 3D microstructures X Wang, Y Yin, X Li, Z You Journal of Power Sources 252, 64-72, 2014 | 80 | 2014 |
| Simulation and structure optimization of triboelectric nanogenerators considering the effects of parasitic capacitance K Dai, X Wang, S Niu, F Yi, Y Yin, L Chen, Y Zhang, Z You Nano Research 10, 157-171, 2017 | 73 | 2017 |
| A high-performance three-dimensional micro supercapacitor based on ripple-like ruthenium oxide–carbon nanotube composite films X Wang, Y Yin, C Hao, Z You Carbon 82, 436-445, 2015 | 72 | 2015 |
| Triboelectric nanogenerators as self-powered acceleration sensor under high-g impact K Dai, X Wang, F Yi, C Jiang, R Li, Z You Nano Energy 45, 84-93, 2018 | 69 | 2018 |
| Freestanding-electret rotary generator at an average conversion efficiency of 56%: theoretical and experimental studies M Bi, S Wang, X Wang, X Ye Nano Energy 41, 434-442, 2017 | 63 | 2017 |
| Comprehensive optimized hybrid energy storage system for long-life solar-powered wireless sensor network nodes N Qi, Y Yin, K Dai, C Wu, X Wang, Z You Applied Energy 290, 116780, 2021 | 62 | 2021 |
| A self-powered insole for human motion recognition Y Han, Y Cao, J Zhao, Y Yin, L Ye, X Wang, Z You Sensors 16 (9), 1502, 2016 | 61 | 2016 |
| Analysis of charge redistribution during self-discharge of double-layer supercapacitors C Hao, X Wang, Y Yin, Z You Journal of Electronic Materials 45, 2160-2171, 2016 | 61 | 2016 |
| Recent progress in self-powered skin sensors J Rao, Z Chen, D Zhao, Y Yin, X Wang, F Yi Sensors 19 (12), 2763, 2019 | 59 | 2019 |
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