In this work, we illustrate two approaches to the simulation of surface diffusion over a sphere coupled with the formation of a cluster by reactive particles as a paradigm of a wide variety of problems occurring in many areas of nanosciences and biology. The problem is treated using a Brownian motion approach and a numerical solution of the corresponding continuous Fick’s laws of diffusion. While being computationally more expensive, the Brownian motion approach allows one to consider a wider range of situations, particularly those corresponding to relatively high concentrations of diffusing particles and the ensuing problem of particle overlap when they are ascribed finite sizes
<div><p>Figure 1 verifies that the SDE constructed in <a href="http://www.ploscompbiol.org/article/i...
International audienceDiffusion-mediated surface phenomena are crucial for human life and industry, ...
Diffusive motion of particles plays an important role in many phenomena in surface physics, for exam...
A common signaling mechanism used by cells involves producing soluble extracellular ligands, which d...
[[abstract]]©2002 AIP - Three numerical schemes and one approximate model are developed to compute t...
Chemical reactions inside cells are generally considered to happen within fixed-size compartments. H...
In many biological and small scale technological applications particles may transiently bind to a cy...
Restricted Access.We study the diffusion of Brownian particles on the surface of a sphere and comput...
The structure and dynamics of confined suspensions of particles of arbitrary shape are of interest i...
International audienceWe study diffusion of particles on the surface of a sphere toward a partially ...
In Brownian Dynamics simulations, the diffusive motion of the particles is simulated by adding rando...
Dynamics simulations of constrained particles can greatly aid in understanding the temporal and spat...
We develop an immersed boundary approach to modeling reaction-diffusion processes in dispersions of ...
This paper is focused on efficient Monte Carlo simulations of Brownian diffusion effects in particl...
We investigate, from single-particle tracking of jumps, the cluster configurations that allow hoppin...
<div><p>Figure 1 verifies that the SDE constructed in <a href="http://www.ploscompbiol.org/article/i...
International audienceDiffusion-mediated surface phenomena are crucial for human life and industry, ...
Diffusive motion of particles plays an important role in many phenomena in surface physics, for exam...
A common signaling mechanism used by cells involves producing soluble extracellular ligands, which d...
[[abstract]]©2002 AIP - Three numerical schemes and one approximate model are developed to compute t...
Chemical reactions inside cells are generally considered to happen within fixed-size compartments. H...
In many biological and small scale technological applications particles may transiently bind to a cy...
Restricted Access.We study the diffusion of Brownian particles on the surface of a sphere and comput...
The structure and dynamics of confined suspensions of particles of arbitrary shape are of interest i...
International audienceWe study diffusion of particles on the surface of a sphere toward a partially ...
In Brownian Dynamics simulations, the diffusive motion of the particles is simulated by adding rando...
Dynamics simulations of constrained particles can greatly aid in understanding the temporal and spat...
We develop an immersed boundary approach to modeling reaction-diffusion processes in dispersions of ...
This paper is focused on efficient Monte Carlo simulations of Brownian diffusion effects in particl...
We investigate, from single-particle tracking of jumps, the cluster configurations that allow hoppin...
<div><p>Figure 1 verifies that the SDE constructed in <a href="http://www.ploscompbiol.org/article/i...
International audienceDiffusion-mediated surface phenomena are crucial for human life and industry, ...
Diffusive motion of particles plays an important role in many phenomena in surface physics, for exam...