| Micromotors with asymmetric shape that efficiently convert light into work by thermocapillary effects C Maggi, F Saglimbeni, M Dipalo, F De Angelis, R Di Leonardo Nature communications 6 (1), 1-5, 2015 | 193 | 2015 |
| Light controlled 3D micromotors powered by bacteria G Vizsnyiczai, G Frangipane, C Maggi, F Saglimbeni, S Bianchi, ... Nature communications 8 (1), 1-7, 2017 | 139 | 2017 |
| Self‐assembly of micromachining systems powered by Janus micromotors C Maggi, J Simmchen, F Saglimbeni, J Katuri, M Dipalo, F De Angelis, ... Small 12 (4), 446-451, 2016 | 121 | 2016 |
| Holographic imaging reveals the mechanism of wall entrapment in swimming bacteria S Bianchi, F Saglimbeni, R Di Leonardo Physical Review X 7 (1), 011010, 2017 | 90 | 2017 |
| Dynamic density shaping of photokinetic E. coli G Frangipane, D Dell'Arciprete, S Petracchini, C Maggi, F Saglimbeni, ... Elife 7, e36608, 2018 | 75 | 2018 |
| Very-long-range nature of capillary interactions in liquid films R Di Leonardo, F Saglimbeni, G Ruocco Physical review letters 100 (10), 106103, 2008 | 49 | 2008 |
| Three-axis digital holographic microscopy for high speed volumetric imaging F Saglimbeni, S Bianchi, A Lepore, R Di Leonardo Optics express 22 (11), 13710-13718, 2014 | 47 | 2014 |
| Microrheology of DNA hydrogel gelling and melting on cooling J Fernandez-Castanon, S Bianchi, F Saglimbeni, R Di Leonardo, ... Soft Matter 14 (31), 6431-6438, 2018 | 31 | 2018 |
| Optical trapping at gigapascal pressures RW Bowman, GM Gibson, MJ Padgett, F Saglimbeni, R Di Leonardo Physical review letters 110 (9), 095902, 2013 | 26 | 2013 |
| Optical characterization of an individual polymer-shelled microbubble structure via digital holography F Saglimbeni, S Bianchi, G Bolognesi, G Paradossi, R Di Leonardo Soft Matter 8 (34), 8822-8825, 2012 | 25 | 2012 |
| Polar features in the flagellar propulsion of E. coli bacteria S Bianchi, F Saglimbeni, A Lepore, R Di Leonardo Physical Review E 91 (6), 062705, 2015 | 21 | 2015 |
| 3D dynamics of bacteria wall entrapment at a water–air interface S Bianchi, F Saglimbeni, G Frangipane, D Dell'Arciprete, R Di Leonardo Soft matter 15 (16), 3397-3406, 2019 | 20 | 2019 |
| A transition to stable one-dimensional swimming enhances E. coli motility through narrow channels G Vizsnyiczai, G Frangipane, S Bianchi, F Saglimbeni, D Dell’Arciprete, ... Nature communications 11 (1), 1-7, 2020 | 9 | 2020 |
| Input from the external environment and input from within the body F Saglimbeni, D Parisi European Conference on Artificial Life, 148-155, 2009 | 8 | 2009 |
| Holographic tracking and sizing of optically trapped microprobes in diamond anvil cells F Saglimbeni, S Bianchi, G Gibson, R Bowman, M Padgett, R Di Leonardo Optics Express 24 (23), 27009-27015, 2016 | 6 | 2016 |
| The strategic level and the tactical level of behaviour F Ruini, G Petrosino, F Saglimbeni, D Parisi Advances in cognitive systems, 271-299, 2010 | 5 | 2010 |
| Optical trapping studies of colloidal interactions in liquid films R Di Leonardo, F Ianni, F Saglimbeni, G Ruocco, S Keen, J Leach, ... Colloids and Surfaces A: Physicochemical and Engineering Aspects 343 (1-3 …, 2009 | 3 | 2009 |
| Dynamic density shaping of light driven bacteria G Frangipane, D Dell'Arciprete, S Petracchini, C Maggi, F Saglimbeni, ... arXiv preprint arXiv:1802.01156, 2018 | 1 | 2018 |
| Optical tweezing at extremes GM Gibson, RW Bowman, F Saglimbeni, R Di Leonardo, MJ Padgett Optical Trapping and Optical Micromanipulation X 8810, 21-27, 2013 | 1 | 2013 |
| Implementing optical tweezers at high pressure in a diamond anvil cell RW Bowman, F Saglimbeni, GM Gibson, R Di Leonardo, MJ Padgett Complex Light and Optical Forces VII 8637, 863718, 2013 | 1 | 2013 |
