Microfluidic chip for bioassays
Articles
Valveless pumping at low Reynolds numbers
G. Amselem, C. Clanet, M. BenzaquenPhys. Rev. Applied , 2023 Link, PDFClogging of a rectangular slit by a spherical soft particle
C.P. Moore, J. Husson, A. Boudaoud, G. Amselem, C.N. BaroudPhys. Rev. Lett. , 2023 Link, PDFCell culture in microfluidic droplets
S. Sart, G. Ronteix, S. Jain, G. Amselem, C.N. BaroudChem Rev , 2022 LinkStructural and functional mapping of mesenchymal bodies
S. Sart, R.F.-X. Tomasi, A. Barizien, G. Amselem, A. Cumano, C.N. BaroudBio-protocol , 2021 LinkIntermittent dynamics of bubble dissolution due to interfacial growth of fat crystals
I. Liascukiene*, G. Amselem*, J. Landoulsi, D.Z. Gunes, C.N. BaroudSoft Matter , 2021 LinkHigh‐throughput measurements of intra‐cellular and secreted cytokine from single spheroids using anchored microfluidic droplets
A. Saint‐Sardos, S. Sart, K. Lippera, E. Brient‐Litzler, S. Michelin, G. Amselem, C.N. BaroudSmall , 2020 LinkMapping the structure and biological functions within mesenchymal bodies using microfluidics
S. Sart, R.F.X. Tomasi, A. Barizien, G. Amselem, A. Cumano, C.N. BaroudScience advances , 2020 LinkGrowing from a few cells: combined effects of initial stochasticity and cell-to-cell variability
A. Barizien, M. S. Suryateja Jammalamadaka, G. Amselem, C.N. BaroudJ. R. Soc. Interface , 2019 LinkUniversal anchored-droplet device for cellular bioassays
G. Amselem, S. Sart, C.N. BaroudMethods in Cell Biology , 2018 LinkCapture of colloidal particles by a moving microfluidic bubble
I. Liascukiene, G. Amselem, D.Z. Gunes, C.N. BaroudSoft Matter , 14, 2018 Link, PDFMultiscale cytometry and regulation of 3D cell cultures on a chip
S. Sart*, R.F.-X. Tomasi*, G. Amselem, C.N. BaroudNature Communications 8, 2017 PDFMonitoring the orientation of rare-earth-doped nanorods for flow shear tomography
J. Kim, S. Michelin, M. Hilbers, L. Martinelli, E. Chaudan, G. Amselem, E. Fradet, J.-P. Boilot, A.M. Brouwer, C.N. Baroud, J. Peretti, T. GacoinNature Nanotechnology 12(9), 2017 Link, PDFUniversal microfluidic platform for bioassays in anchored droplets
G. Amselem*, C. Guermonprez*, B. Drogue, S. Michelin, C.N. BaroudLab on a Chip 16(21), 2016 Link, PDFBreaking anchored droplets in a microfluidic Hele-Shaw cell
G. Amselem, P.T. Brun, F. Gallaire, C.N. BaroudPhys. Rev. App. 3(5), 2015 Link, PDFRandom network peristalsis in Physarum polycephalum organizes fluid flows across an individual
K. Alim*, G. Amselem*, F. Peaudecerf, M.P. Brenner, A. PringlePNAS, 110(33), 2013 Link, PDFControl Parameter Description of Eukaryotic Chemotaxis
G. Amselem, M. Theves, A. Bae, C. Beta, E. BodenschatzPhys. Rev. Lett. 109(10), 2012 Link, PDFA Stochastic Description of Dictyostelium Chemotaxis
G. Amselem, M. Theves, A. Bae, C. Beta, E. BodenschatzPlos One, 7(5), 2012 LinkA bistable mechanism for directional sensing
C. Beta, G. Amselem, E. BodenschatzNew J. Phys., 10, 2008 LinkNon‐Lipschitzian control algorithms: application to a nanofriction model
V. Protopopescu, J. Barhen, G, Amselem, J. DahanMath. Meth. App. Sci, 29(3), 2006 LinkNon-Lipschitzian control algorithm for a 2d nanofriction model
V. Protopopescu, J. Barhen, G, Amselem, J. DahanPhys. Lett. A, 340(1), 2005 Link