| Analytical model for Stirling cycle machine design F Formosa, G Despesse Energy Conversion and Management 51 (10), 1855-1863, 2010 | 186 | 2010 |
| Comparison of electromagnetic and piezoelectric vibration energy harvesters: Model and experiments E Arroyo, A Badel, F Formosa, Y Wu, J Qiu Sensors and Actuators A: Physical 183, 148-156, 2012 | 184 | 2012 |
| Novel piezoelectric bistable oscillator architecture for wideband vibration energy harvesting WQ Liu, A Badel, F Formosa, YP Wu, A Agbossou Smart materials and structures 22 (3), 035013, 2013 | 167 | 2013 |
| Piezoelectric vibration energy harvesting by optimized synchronous electric charge extraction Y Wu, A Badel, F Formosa, W Liu, AE Agbossou Journal of Intelligent Material Systems and Structures 24 (12), 1445-1458, 2013 | 151 | 2013 |
| Form defects tolerancing by natural modes analysis S Samper, F Formosa | 117 | 2007 |
| Nonlinear vibration energy harvesting device integrating mechanical stoppers used as synchronous mechanical switches Y Wu, A Badel, F Formosa, W Liu, A Agbossou Journal of Intelligent Material Systems and Structures 25 (14), 1658-1663, 2014 | 84 | 2014 |
| Coupled thermodynamic–dynamic semi-analytical model of free piston Stirling engines F Formosa Energy Conversion and Management 52 (5), 2098-2109, 2011 | 82 | 2011 |
| Self-powered optimized synchronous electric charge extraction circuit for piezoelectric energy harvesting Y Wu, A Badel, F Formosa, W Liu, A Agbossou Journal of Intelligent Material Systems and Structures 25 (17), 2165-2176, 2014 | 75 | 2014 |
| Strongly coupled piezoelectric cantilevers for broadband vibration energy harvesting D Gibus, P Gasnier, A Morel, F Formosa, L Charleux, S Boisseau, ... Applied Energy 277, 115518, 2020 | 68 | 2020 |
| A comprehensive analysis and modeling of the self-powered synchronous switching harvesting circuit with electronic breakers W Liu, A Badel, F Formosa, Q Zhu, C Zhao, GD Hu IEEE Transactions on Industrial Electronics 65 (5), 3899-3909, 2017 | 61 | 2017 |
| Modal expression of form defects F Formosa, S Samper Models for Computer Aided Tolerancing in Design and Manufacturing: Selected …, 2007 | 55 | 2007 |
| Wideband energy harvesting using a combination of an optimized synchronous electric charge extraction circuit and a bistable harvester WQ Liu, A Badel, F Formosa, YP Wu, A Agbossou Smart Materials and Structures 22 (12), 125038, 2013 | 54 | 2013 |
| Scaling laws for free piston Stirling engine design: Benefits and challenges of miniaturization F Formosa, LG Fréchette Energy 57, 796-808, 2013 | 54 | 2013 |
| Energy harvesting from ambient vibrations: Electromagnetic device and synchronous extraction circuit E Arroyo, A Badel, F Formosa Journal of Intelligent Material Systems and Structures 24 (16), 2023-2035, 2013 | 52 | 2013 |
| Self-powered nonlinear harvesting circuit with a mechanical switch structure for a bistable generator with stoppers W Liu, F Formosa, A Badel, Y Wu, A Agbossou Sensors and Actuators A: Physical 216, 106-115, 2014 | 51 | 2014 |
| Multi scale modal decomposition of primary form, waviness and roughness of surfaces GL Goic, H Favreliere, S Samper, F Formosa Scanning 33 (5), 332-341, 2011 | 46 | 2011 |
| Double acting Stirling engine: Modeling, experiments and optimization G Féniès, F Formosa, J Ramousse, A Badel Applied energy 159, 350-361, 2015 | 45 | 2015 |
| A new figure of merit for wideband vibration energy harvesters WQ Liu, A Badel, F Formosa, YP Wu Smart Materials and Structures 24 (12), 125012, 2015 | 45 | 2015 |
| Outlier filtering: a new method for improving the quality of surface measurements G Le Goïc, CA Brown, H Favreliere, S Samper, F Formosa Measurement Science and Technology 24 (1), 015001, 2012 | 42 | 2012 |
| Hybrid power harvesting for increased power conversion efficiency CHP Lorenz, S Hemour, W Liu, A Badel, F Formosa, K Wu IEEE Microwave and Wireless Components Letters 25 (10), 687-689, 2015 | 40 | 2015 |