We show theoretically that near a fluid-fluid interface a single active colloidal particle generating, e.g., chemicals or a temperature gradient experiences an effective force of hydrodynamic origin. This force is due to the fluid flow driven by Marangoni stresses induced by the activity of the particle; it decays very slowly with the distance from the interface, and can be attractive or repulsive depending on how the activity modifies the surface tension. We show that, for typical systems, this interaction can dominate the dynamics of the particle as compared to Brownian motion, dispersion forces, or self-phoretic effects. In the attractive case, the interaction promotes the self-assembly of particles into a crystal-like monolayer at the i...
Living microorganisms in confined systems typically experience an affinity to populate boundaries. T...
When colloids flow in a narrow channel, the transport efficiency is controlled by the non-equilibriu...
A colloidal particle straddling an air/water interface experiences an unexpectedly large viscous dra...
The dynamics of active colloids is very sensitive to the presence of boundaries and interfaces which...
Hypothesis: The collective dynamics and self-assembly of colloids floating at a fluid/fluid interfac...
Colloidal particles of micrometer size usually become irreversibly trapped at fluid interfaces if th...
International audienceWe show that the solvent behaviour in both diffusio-osmosis and Marangoni flow...
Active colloids are microscopic particles, which self-propel through viscous fluids by converting en...
Within a general theoretical framework, we study the effective, deformation-induced interaction bet...
Diffusio-phoresis --the motion of a particle or a macromolecule in a solute concentration gradient--...
The interaction of particles with fluid interfaces is ubiquitous in synthetic and natural work, invo...
Active particles are known to exhibit collective behavior and induce structure in a variety of soft-...
This thesis deals with spherical microparticles trapped at liquid interfaces. It focuses on ...
The past two decades have seen a remarkable progress in the development of synthetic colloidal agent...
At the surfaces of autophoretic colloids, slip velocities arise from local chemical gradients that a...
Living microorganisms in confined systems typically experience an affinity to populate boundaries. T...
When colloids flow in a narrow channel, the transport efficiency is controlled by the non-equilibriu...
A colloidal particle straddling an air/water interface experiences an unexpectedly large viscous dra...
The dynamics of active colloids is very sensitive to the presence of boundaries and interfaces which...
Hypothesis: The collective dynamics and self-assembly of colloids floating at a fluid/fluid interfac...
Colloidal particles of micrometer size usually become irreversibly trapped at fluid interfaces if th...
International audienceWe show that the solvent behaviour in both diffusio-osmosis and Marangoni flow...
Active colloids are microscopic particles, which self-propel through viscous fluids by converting en...
Within a general theoretical framework, we study the effective, deformation-induced interaction bet...
Diffusio-phoresis --the motion of a particle or a macromolecule in a solute concentration gradient--...
The interaction of particles with fluid interfaces is ubiquitous in synthetic and natural work, invo...
Active particles are known to exhibit collective behavior and induce structure in a variety of soft-...
This thesis deals with spherical microparticles trapped at liquid interfaces. It focuses on ...
The past two decades have seen a remarkable progress in the development of synthetic colloidal agent...
At the surfaces of autophoretic colloids, slip velocities arise from local chemical gradients that a...
Living microorganisms in confined systems typically experience an affinity to populate boundaries. T...
When colloids flow in a narrow channel, the transport efficiency is controlled by the non-equilibriu...
A colloidal particle straddling an air/water interface experiences an unexpectedly large viscous dra...