Toward broadband vibration-based energy harvesting L Tang, Y Yang, CK Soh Journal of intelligent material systems and structures 21 (18), 1867-1897, 2010 | 804 | 2010 |
A nonlinear piezoelectric energy harvester with magnetic oscillator L Tang, Y Yang Applied Physics Letters 101 (9), 2012 | 357 | 2012 |
Comparative study of tip cross-sections for efficient galloping energy harvesting Y Yang, L Zhao, L Tang Applied Physics Letters 102, 064105, 2013 | 343 | 2013 |
Equivalent circuit modeling of piezoelectric energy harvesters Y Yang, L Tang Journal of Intelligent Material Systems and Structures 20 (18), 2223-2235, 2009 | 331 | 2009 |
A novel two-degrees-of-freedom piezoelectric energy harvester H Wu, L Tang, Y Yang, CK Soh Journal of Intelligent Material Systems and Structures 24 (3), 357-368, 2013 | 299 | 2013 |
Improving functionality of vibration energy harvesters using magnets L Tang, Y Yang, CK Soh Journal of Intelligent Material Systems and Structures 23 (13), 1433-1449, 2012 | 273 | 2012 |
Origami-inspired electret-based triboelectric generator for biomechanical and ocean wave energy harvesting K Tao, H Yi, Y Yang, H Chang, J Wu, L Tang, Z Yang, N Wang, L Hu, Y Fu, ... Nano Energy 67, 104197, 2020 | 254 | 2020 |
Investigation of multimodal electret-based MEMS energy harvester with impact-induced nonlinearity K Tao, L Tang*, J Wu, SW Lye, H Chang, J Miao Journal of Microelectromechanical Systems 27 (2), 276 - 288, 2018 | 230 | 2018 |
Efficiency investigation on energy harvesting from airflows in HVAC system based on galloping of isosceles triangle sectioned bluff bodies J Wang, L Tang, L Zhao, Z Zhang Energy 172, 1066-1078, 2019 | 222 | 2019 |
Vibration energy harvesting using macro-fiber composites Y Yang, L Tang, H Li Smart Materials and Structures 18, 115025, 2009 | 202 | 2009 |
Hierarchically Microstructure-Bioinspired Flexible Piezoresistive Bioelectronics T Yang, W Deng, X Chu, X Wang, Y Hu, X Fan, J Song, Y Gao, B Zhang, ... ACS nano, 2021 | 198 | 2021 |
Comparison of modeling methods and parametric study for a piezoelectric wind energy harvester L Zhao, L Tang, Y Yang Smart Materials and Structures 22 (12), 125003, 2013 | 193 | 2013 |
Development of a broadband nonlinear two-degree-of-freedom piezoelectric energy harvester H Wu, L Tang, Y Yang, CK Soh Journal of Intelligent Material Systems and Structures 25 (14), 1875-1889, 2014 | 176 | 2014 |
A multiple-degree-of-freedom piezoelectric energy harvesting model L Tang, Y Yang Journal of Intelligent Material Systems and Structures 23 (14), 1631-1647, 2012 | 171 | 2012 |
Metamaterial beam with graded local resonators for broadband vibration suppression G Hu, ACM Austin, V Sorokin, L Tang Mechanical Systems and Signal Processing 146, 106982, 2021 | 167 | 2021 |
Optimizing orientation of piezoelectric cantilever beam for harvesting energy from human walking I Izadgoshasb, YY Lim, N Lake, L Tang, RV Padilla, T Kashiwao Energy Conversion and Management 161, 66-73, 2018 | 162 | 2018 |
Internal resonance with commensurability induced by an auxiliary oscillator for broadband energy harvesting L Xiong, L Tang*, BR Mace Applied Physics Letters 108 (20), 203901, 2016 | 140 | 2016 |
Improving efficiency of piezoelectric based energy harvesting from human motions using double pendulum system I Izadgoshasb, YY Lim, L Tang, RV Padilla, ZS Tang, M Sedighi Energy Conversion and Management 184, 559-570, 2019 | 137 | 2019 |
Piezoelectric ZnO thin films for 2DOF MEMS vibrational energy harvesting K Tao, H Yi, L Tang, J Wu, P Wang, N Wang, L Hu, Y Fu, J Miao, H Chang Surface and Coatings Technology 359, 289-295, 2019 | 132 | 2019 |
Modeling and experiment of bistable two-degree-of-freedom energy harvester with magnetic coupling H Wang, L Tang* Mechanical Systems and Signal Processing 86, 29-39, 2017 | 132 | 2017 |