Add to ORKGSoft particles such as drops, vesicles, and red blood cells, display rich dynamics in externally applied flow and electric fields. For example, vesicles have multiple dynamical states in shear flow (tank-treading, tumbling); drops in uniform electric field undergo various symmetry-breaking instabilities. I will overview the complex flow behavior of these inertialess systems and discuss how it arises from the nonlinear interaction of a deformable microstructure and external forcing.Non UBCUnreviewedAuthor affiliation: Northwestern UniversityFacult
Dynamics of vesicle and red blood cell suspensions in simple shear and microfluidic flows.Dynamique ...
The dominance of surface tension and viscous effects over body forces such as inertia, gravity or ce...
The addition of non-dilute volume fraction of dispersed colloids can significantly alter a fluid?s e...
Soft matter systems deal with particles or collections of particles that respond to applied forces w...
Vesicles or biological cells under simultaneous shear and electric field can be encountered in diele...
Soft matter materials are classically characterized by rheological experiments, which probe the mech...
highlightInternational audienceWe describe the similarities and the specificities of the behaviour o...
There is a lot of interest in characterizing the mechanics of complex interfaces that compose biolog...
The world of cellular biology provides us with many fascinating fluid dynamical phenomena that lie a...
Electrokinetics plays an important role in facilitating fluid transport and particle manipulation in...
Soft matter such as bubbles, drops, emulsions, foams, gels, biological tissues and cells can change ...
Open Access.Soft materials such as colloidal suspensions, polymer solutions and liquid crystals are ...
Soft matter deforms in response to imposed external forces. Here we demonstrate how dynamic surface ...
Despite its significance in microfluidics, the effect of confinement on the transition from the tank...
Soft matter deforms in response to imposed external forces. Here we demonstrate how dynamic surface ...
Dynamics of vesicle and red blood cell suspensions in simple shear and microfluidic flows.Dynamique ...
The dominance of surface tension and viscous effects over body forces such as inertia, gravity or ce...
The addition of non-dilute volume fraction of dispersed colloids can significantly alter a fluid?s e...
Soft matter systems deal with particles or collections of particles that respond to applied forces w...
Vesicles or biological cells under simultaneous shear and electric field can be encountered in diele...
Soft matter materials are classically characterized by rheological experiments, which probe the mech...
highlightInternational audienceWe describe the similarities and the specificities of the behaviour o...
There is a lot of interest in characterizing the mechanics of complex interfaces that compose biolog...
The world of cellular biology provides us with many fascinating fluid dynamical phenomena that lie a...
Electrokinetics plays an important role in facilitating fluid transport and particle manipulation in...
Soft matter such as bubbles, drops, emulsions, foams, gels, biological tissues and cells can change ...
Open Access.Soft materials such as colloidal suspensions, polymer solutions and liquid crystals are ...
Soft matter deforms in response to imposed external forces. Here we demonstrate how dynamic surface ...
Despite its significance in microfluidics, the effect of confinement on the transition from the tank...
Soft matter deforms in response to imposed external forces. Here we demonstrate how dynamic surface ...
Dynamics of vesicle and red blood cell suspensions in simple shear and microfluidic flows.Dynamique ...
The dominance of surface tension and viscous effects over body forces such as inertia, gravity or ce...
The addition of non-dilute volume fraction of dispersed colloids can significantly alter a fluid?s e...