Add to ORKGWe study the motion of a small solid particle (a few micrometers in size) attached to the membrane of a spherical giant lipid vesicle. By means of optical manipulation, the particle is first brought near the top of the vesicle, and released. We determine the friction experienced by the particle moving along the vesicle surface under the action of gravity. From experiments with latex and glass beads, we check that SOPC membranes are fluid at room temperature (static shear modulus u = 0) and estimate the shear viscosity of SOPC bilayers: nm = 3 * 10^(-6) surface poise
International audienceThe behaviour of a vesicle suspension in a simple shear flow between plates (C...
Giant vesicles are deformable lipid membranes enclosing a fluid, with diameters of several microns. ...
In the last decade, considerable efforts have been undertaken to measure, model and simulate the mot...
We study the motion of a small solid particle (a few micrometers in size) attached to the membrane ...
We have studied the motion of a Brownian particle on a spherical interface under gravity, with the a...
We study the general problem of the friction felt by a spherical solid particle which moves parallel...
We studied the sequence of phenomena which occur when a solid microsphere is brought in contact with...
AbstractWe used micron-sized latex spheres to probe the phase state and the viscoelastic properties ...
16 pagesInternational audienceWe study the sedimentation of buoyant giant lipid vesicles in a quiesc...
Lipid membranes play an essential role in both the morphology and functionality of living cells. The...
AbstractThe molecular processes of particle binding and endocytosis are influenced by the locally ch...
International audienceWe show the existence of a flow at the surface of strongly adhering giant lipi...
Using single-particle tracking, we investigate the interaction of small unilamellar vesicles (SUVs) ...
International audienceVesicles are sacs made of a phospholipid bilayer, and they mimic the cytoplasm...
International audienceLiving or artificial self-propelled colloidal particles show original dynamics...
International audienceThe behaviour of a vesicle suspension in a simple shear flow between plates (C...
Giant vesicles are deformable lipid membranes enclosing a fluid, with diameters of several microns. ...
In the last decade, considerable efforts have been undertaken to measure, model and simulate the mot...
We study the motion of a small solid particle (a few micrometers in size) attached to the membrane ...
We have studied the motion of a Brownian particle on a spherical interface under gravity, with the a...
We study the general problem of the friction felt by a spherical solid particle which moves parallel...
We studied the sequence of phenomena which occur when a solid microsphere is brought in contact with...
AbstractWe used micron-sized latex spheres to probe the phase state and the viscoelastic properties ...
16 pagesInternational audienceWe study the sedimentation of buoyant giant lipid vesicles in a quiesc...
Lipid membranes play an essential role in both the morphology and functionality of living cells. The...
AbstractThe molecular processes of particle binding and endocytosis are influenced by the locally ch...
International audienceWe show the existence of a flow at the surface of strongly adhering giant lipi...
Using single-particle tracking, we investigate the interaction of small unilamellar vesicles (SUVs) ...
International audienceVesicles are sacs made of a phospholipid bilayer, and they mimic the cytoplasm...
International audienceLiving or artificial self-propelled colloidal particles show original dynamics...
International audienceThe behaviour of a vesicle suspension in a simple shear flow between plates (C...
Giant vesicles are deformable lipid membranes enclosing a fluid, with diameters of several microns. ...
In the last decade, considerable efforts have been undertaken to measure, model and simulate the mot...