We demonstrate that migration away from self-produced chemicals (chemorepulsion) generates a generic route to clustering and pattern formation among self-propelled colloids. The clustering instability can be caused either by anisotropic chemical production, or by a delayed orientational response to changes of the chemical environment. In each case, chemorepulsion creates clusters of a self-limiting area which grows linearly with self-propulsion speed. This agrees with recent observations of dynamic clusters in Janus colloids (albeit not yet known to be chemorepulsive). More generally, our results could inform design principles for the self-assembly of chemorepulsive synthetic swimmers and/or bacteria into nonequilibrium patterns
Fuel-driven assembly operates under the continuous influx of energy and results in superstructures t...
We study experimentally and numerically a (quasi) two dimensional colloidal suspension of self-prope...
How order can emerge spontaneously from a disordered system has always fascinated scientists from nu...
We demonstrate that migration away from self-produced chemicals (chemorepulsion) generates a generic...
We demonstrate that migration away from self-produced chemicals (chemorepulsion) generates a generic...
We study the dynamical steady-states of a monolayer of chemically active self-phoretic colloids as a...
Conspectus: The ability to navigate in chemical gradients, called chemotaxis, is crucial for the sur...
International audienceIn this Letter, we explore experimentally the phase behavior of a dense active...
Many motile microorganisms communicate with each other and their environments via chemical signaling...
The creation of synthetic systems that emulate the defining properties of living matter, such as mot...
We demonstrate that active rotations in chemically signalling particles, such as autochemotactic $\t...
International audienceA remarkable feature of active matter is the propensity to self-organize. One ...
Active fluids comprise a variety of systems composed of elements immersed in a fluid environment whi...
A common feature of biological self-organization is how active agents communicate with each other or...
International audienceIsotropic phoretic particles do not swim individually but can achieve self-pro...
Fuel-driven assembly operates under the continuous influx of energy and results in superstructures t...
We study experimentally and numerically a (quasi) two dimensional colloidal suspension of self-prope...
How order can emerge spontaneously from a disordered system has always fascinated scientists from nu...
We demonstrate that migration away from self-produced chemicals (chemorepulsion) generates a generic...
We demonstrate that migration away from self-produced chemicals (chemorepulsion) generates a generic...
We study the dynamical steady-states of a monolayer of chemically active self-phoretic colloids as a...
Conspectus: The ability to navigate in chemical gradients, called chemotaxis, is crucial for the sur...
International audienceIn this Letter, we explore experimentally the phase behavior of a dense active...
Many motile microorganisms communicate with each other and their environments via chemical signaling...
The creation of synthetic systems that emulate the defining properties of living matter, such as mot...
We demonstrate that active rotations in chemically signalling particles, such as autochemotactic $\t...
International audienceA remarkable feature of active matter is the propensity to self-organize. One ...
Active fluids comprise a variety of systems composed of elements immersed in a fluid environment whi...
A common feature of biological self-organization is how active agents communicate with each other or...
International audienceIsotropic phoretic particles do not swim individually but can achieve self-pro...
Fuel-driven assembly operates under the continuous influx of energy and results in superstructures t...
We study experimentally and numerically a (quasi) two dimensional colloidal suspension of self-prope...
How order can emerge spontaneously from a disordered system has always fascinated scientists from nu...