Interacting-particle reaction dynamics (iPRD) combines the simulation of dynamical trajectories of interacting particles as in molecular dynamics (MD) simulations with reaction kinetics, in which particles appear, disappear, or change their type and interactions based on a set of reaction rules. This combination facilitates the simulation of reaction kinetics in crowded environments, involving complex molecular geometries such as polymers, and employing complex reaction mechanisms such as breaking and fusion of polymers. iPRD simulations are ideal to simulate the detailed spatiotemporal reaction mechanism in complex and dense environments, such as in signalling processes at cellular membranes, or in nano- to microscale chemical reactors. He...
The final report for a Laboratory Directed Research and Development project entitled, Molecular Simu...
We present here some applications of an Interacting Particle System (IPS) methodology to the field o...
International audienceStudying complex molecular assemblies interactively is becoming an increasingl...
Interacting-particle reaction dynamics (iPRD) combines the simulation of dynamical trajectories of i...
<div><p>We introduce the software package ReaDDy for simulation of detailed spatiotemporal mechanism...
We introduce the software package ReaDDy for simulation of detailed spatiotemporal mechanisms of dyn...
Interacting-Particle Reaction Dynamics (iPRD) simulates the spatiotemporal evolution of particles th...
AbstractReaDDy is a modular particle simulation package combining off-lattice reaction kinetics with...
We introduce the software package ReaDDy for simulation of detailed spatiotemporal mechanisms of dyn...
A concept is presented to extend molecular dynamics simulations by the so-called reactive steps, dur...
We develop novel parallel algorithms that allow molecular dynamics simulations in which byproduct mo...
Interacting Particle Systems (IPSs) are used to model spatio-temporal stochastic systems in many dis...
We present a technique, called Green's function reaction dynamics (GFRD), for particle-based simulat...
7noReaction systems represent a theoretical framework based on the regulation mechanisms of facilita...
Abstract—Biological pathways typically consist of dozens of reacting chemical species and hundreds o...
The final report for a Laboratory Directed Research and Development project entitled, Molecular Simu...
We present here some applications of an Interacting Particle System (IPS) methodology to the field o...
International audienceStudying complex molecular assemblies interactively is becoming an increasingl...
Interacting-particle reaction dynamics (iPRD) combines the simulation of dynamical trajectories of i...
<div><p>We introduce the software package ReaDDy for simulation of detailed spatiotemporal mechanism...
We introduce the software package ReaDDy for simulation of detailed spatiotemporal mechanisms of dyn...
Interacting-Particle Reaction Dynamics (iPRD) simulates the spatiotemporal evolution of particles th...
AbstractReaDDy is a modular particle simulation package combining off-lattice reaction kinetics with...
We introduce the software package ReaDDy for simulation of detailed spatiotemporal mechanisms of dyn...
A concept is presented to extend molecular dynamics simulations by the so-called reactive steps, dur...
We develop novel parallel algorithms that allow molecular dynamics simulations in which byproduct mo...
Interacting Particle Systems (IPSs) are used to model spatio-temporal stochastic systems in many dis...
We present a technique, called Green's function reaction dynamics (GFRD), for particle-based simulat...
7noReaction systems represent a theoretical framework based on the regulation mechanisms of facilita...
Abstract—Biological pathways typically consist of dozens of reacting chemical species and hundreds o...
The final report for a Laboratory Directed Research and Development project entitled, Molecular Simu...
We present here some applications of an Interacting Particle System (IPS) methodology to the field o...
International audienceStudying complex molecular assemblies interactively is becoming an increasingl...