Jean-Claude Bacri
Affiliations: | Université Paris Diderot - Paris 7, Paris, Île-de-France, France |
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Children
Sign in to add trainee| Sandris Lācis | grad student | 1996 | Université Paris 7 |
| Ivars Driķis | grad student | 1999 | Université Paris 7 |
| Maksim Igonin | grad student | 2004 | Université Paris 7 |
| Andrejs Tatuļčenkovs | grad student | 2010 | Université Paris 7 |
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Publications
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| Rigoni C, Fresnais J, Talbot D, et al. (2020) Magnetic field driven deformation, attraction and coalescence of non-magnetic aqueous droplets in an oil based ferrofluid. Langmuir : the Acs Journal of Surfaces and Colloids |
| Mazuel F, Mathieu S, Di Corato R, et al. (2017) Forced- and Self-Rotation of Magnetic Nanorods Assembly at the Cell Membrane: A Biomagnetic Torsion Pendulum. Small (Weinheim An Der Bergstrasse, Germany). 13 |
| Gerbal F, Wang Y, Sandre O, et al. (2017) Extensive characterization of magnetic microrods observed using optical microscopy. Soft Matter |
| Chalopin Y, Bacri JC, Gazeau F, et al. (2017) Nanoscale Brownian heating by interacting magnetic dipolar particles. Scientific Reports. 7: 1656 |
| Falcon E, Bacri J, Laroche C. (2017) Dissipated power within a turbulent flow forced homogeneously by magnetic particles Physical Review Fluids. 2 |
| Mazuel F, Mathieu S, Di Corato R, et al. (2017) Magnetic Nanorods: Forced- and Self-Rotation of Magnetic Nanorods Assembly at the Cell Membrane: A Biomagnetic Torsion Pendulum (Small 31/2017) Small. 13 |
| Rigoni C, Pierno M, Mistura G, et al. (2016) Static magnetowetting of ferrofluid drops. Langmuir : the Acs Journal of Surfaces and Colloids |
| Jamin T, Djama Y, Bacri J, et al. (2016) Tuning the resonant frequencies of a drop by a magnetic field Physical Review Fluids. 1 |
| Gerbal F, Wang Y, Lyonnet F, et al. (2015) A refined theory of magnetoelastic buckling matches experiments with ferromagnetic and superparamagnetic rods. Proceedings of the National Academy of Sciences of the United States of America. 112: 7135-40 |
| Mazuel F, Reffay M, Du V, et al. (2015) Magnetic flattening of stem-cell spheroids indicates a size-dependent elastocapillary transition. Physical Review Letters. 114: 098105 |