| The performance improvements of train suspension systems with mechanical networks employing inerters FC Wang, MK Liao, BH Liao, WJ Su, HA Chan Vehicle System Dynamics 47 (7), 805-830, 2009 | 274 | 2009 |
| Impact of inerter nonlinearities on vehicle suspension control FC Wang, WJ Su Vehicle system dynamics 46 (7), 575-595, 2008 | 162 | 2008 |
| Design and development of a broadband magnet-induced dual-cantilever piezoelectric energy harvester WJ Su, J Zu, Y Zhu Journal of Intelligent Material Systems and Structures 25 (4), 430-442, 2014 | 112 | 2014 |
| An innovative tri-directional broadband piezoelectric energy harvester WJ Su, J Zu Applied Physics Letters 103 (20), 203901, 2013 | 87 | 2013 |
| 无主题 US Patent US2,009, 0 | 70* | |
| Broadband energy harvesting through a piezoelectric beam subjected to dynamic compressive loading Y Zhu, J Zu, W Su Smart Materials and structures 22 (4), 045007, 2013 | 63 | 2013 |
| Design and analysis of a vortex-induced bi-directional piezoelectric energy harvester WJ Su, WY Lin International Journal of Mechanical Sciences 173, 105457, 2020 | 61 | 2020 |
| A metamaterial structure capable of wave attenuation and concurrent energy harvesting JS Chen, WJ Su, Y Cheng, WC Li, CY Lin Journal of Intelligent Material Systems and Structures 30 (20), 2973-2981, 2019 | 41 | 2019 |
| A U-shaped multi-modal bi-directional piezoelectric energy harvester WJ Su, HA Shih Applied Physics Letters 113 (7), 071905, 2018 | 32 | 2018 |
| Design and development of a novel bi-directional piezoelectric energy harvester WJ Su, JW Zu Smart materials and structures 23 (9), 095012, 2014 | 32 | 2014 |
| Analysis of a cantilevered piezoelectric energy harvester in different orientations for rotational motion WJ Su, JH Lin, WC Li Sensors 20 (4), 1206, 2020 | 31 | 2020 |
| Modeling and analyses of a connected multi-car train system employing the inerter HJ Chen, WJ Su, FC Wang Advances in Mechanical Engineering 9 (8), 1687814017701703, 2017 | 28 | 2017 |
| Inerter nonlinearities and the impact on suspension control FC Wang, WJ Su 2008 American Control Conference, 3245-3250, 2008 | 26 | 2008 |
| Impact-driven broadband piezoelectric energy harvesting using a two-degrees-of-freedom structure WJ Su Microsystem Technologies 26 (6), 1915-1924, 2020 | 24 | 2020 |
| Theoretical analysis and experimental study of a nonlinear U-shaped bi-directional piezoelectric energy harvester HA Shih, WJ Su Smart Materials and Structures 28 (1), 015017, 2018 | 22 | 2018 |
| Development of a non-linear bi-directional vortex-induced piezoelectric energy harvester with magnetic interaction WJ Su, ZS Wang Sensors 21 (7), 2299, 2021 | 17 | 2021 |
| Modeling of V-shaped beam-mass piezoelectric energy harvester: impact of the angle between the beams WJ Su, JW Zu ASME International Mechanical Engineering Congress and Exposition 45202, 573-579, 2012 | 15 | 2012 |
| Wrinkle localization in membrane structures patched with macro-fiber composite actuators: Inflatable space antenna applications E Fleurent-Wilson, TE Pollock, WJ Su, D Warrier, A Salehian Journal of Intelligent Material Systems and Structures 25 (15), 1978-2009, 2014 | 11 | 2014 |
| Magnetic plucked meso-scale piezoelectric energy harvester for low-frequency rotational motion CT Chen, WJ Su, WJ Wu, D Vasic, F Costa Smart Materials and Structures 30 (10), 105014, 2021 | 8 | 2021 |
| The development of a dynamic model to investigate the dielectric layer thickness effect for the device performance in triboelectric nanogenerators MH Liao, CC Wu, WJ Su, SC Chen, MH Lee IEEE Transactions on Electron Devices 66 (10), 4478-4480, 2019 | 8 | 2019 |
