Many motile microorganisms communicate with each other and their environments via chemical signaling which leads to long-range interactions mediated by self-generated chemical gradients. However, consequences of the interplay between crowding and chemotactic interactions on their collective behavior remain poorly understood. In this work, we use Brownian dynamics simulations to investigate the effect of packing fraction on the formation of non-equilibrium structures in a monolayer of diffusiophoretic self-propelled colloids as a model for chemically active particles. Focusing on the case when a chemical field induces attractive positional and repulsive orientational interactions, we explore dynamical steady-states of active colloids of vary...
The dynamic behavior of flocks, swarms, and schools is an extraordinary and striking phenomena in th...
We employ reactive dynamical density functional theory R DDFT and reactive Brownian dynamics R BD...
We simulate clustering, phase separation and hexatic ordering in a monolayered suspension of active ...
Many motile microorganisms communicate with each other and their environments via chemical signaling...
We study the dynamical steady-states of a monolayer of chemically active self-phoretic colloids as a...
Living active matter systems such as bacterial colonies, schools of fish and human crowds, display a...
Active fluids comprise a variety of systems composed of elements immersed in a fluid environment whi...
We demonstrate that migration away from self-produced chemicals (chemorepulsion) generates a generic...
Murmurations of birds, schools of fish, and herds of migrating animals are macroscale examples of se...
The past two decades have seen a remarkable progress in the development of synthetic colloidal agent...
Diffusiophoresis is the process by which a colloidal particle moves in response to the concentration...
The perplexing and intriguing world of biological systems has inaugurated a new research field in st...
International audienceIn this Letter, we explore experimentally the phase behavior of a dense active...
Self-propelled colloids are microscopic entities of typical size between a few nanometers to a few m...
Active colloids are microscopic particles, which self-propel through viscous fluids by converting en...
The dynamic behavior of flocks, swarms, and schools is an extraordinary and striking phenomena in th...
We employ reactive dynamical density functional theory R DDFT and reactive Brownian dynamics R BD...
We simulate clustering, phase separation and hexatic ordering in a monolayered suspension of active ...
Many motile microorganisms communicate with each other and their environments via chemical signaling...
We study the dynamical steady-states of a monolayer of chemically active self-phoretic colloids as a...
Living active matter systems such as bacterial colonies, schools of fish and human crowds, display a...
Active fluids comprise a variety of systems composed of elements immersed in a fluid environment whi...
We demonstrate that migration away from self-produced chemicals (chemorepulsion) generates a generic...
Murmurations of birds, schools of fish, and herds of migrating animals are macroscale examples of se...
The past two decades have seen a remarkable progress in the development of synthetic colloidal agent...
Diffusiophoresis is the process by which a colloidal particle moves in response to the concentration...
The perplexing and intriguing world of biological systems has inaugurated a new research field in st...
International audienceIn this Letter, we explore experimentally the phase behavior of a dense active...
Self-propelled colloids are microscopic entities of typical size between a few nanometers to a few m...
Active colloids are microscopic particles, which self-propel through viscous fluids by converting en...
The dynamic behavior of flocks, swarms, and schools is an extraordinary and striking phenomena in th...
We employ reactive dynamical density functional theory R DDFT and reactive Brownian dynamics R BD...
We simulate clustering, phase separation and hexatic ordering in a monolayered suspension of active ...