Simulation studies of step-growth polymerization, e.g., polymerization of polyurethane systems, hold great promise due to having complete control over the reaction conditions and being able to perform an in-depth analysis of network structures. In this work, we developed a (completely automated) simulation method based on a coarse-grained (CG) methodology, i.e., the MARTINI model, to study the cross-linking reaction of a diol, a tri-isocyanate molecule and one-hydroxyl functional molecule to form a polyurethane network without and with dangling chains. This method is capable of simulating the cross-linking reactions not only up to very high conversions, but also under rather complicated reaction conditions, i.e., a non-stoichiometric ratio ...
The stochastic nature of polymerization processes often leads to a mixture of chain populations with...
A novel computational strategy is described for the simulation of star polymerisations, allowing for...
A novel computational strategy is described for the simulation of star polymerisations, allowing for...
\u3cp\u3eSimulation studies of step-growth polymerization, e.g., polymerization of polyurethane syst...
The strength of combining experimental design and advanced kinetic Monte Carlo (kMC) modeling to und...
The strength of combining experimental design and advanced kinetic Monte Carlo (kMC) modeling to und...
In this paper we consider the application of automatic reaction network generation on a polymerizati...
Monte Carlo is a stochastic simulation tool which reaches the molecular level to predict both micros...
Many research fields, reaching from social networks and epidemiology to biology and physics, have ex...
Most of the theoretical studies on polymer kinetics has been performed by manually reducing the chem...
A computationally efficient Monte Carlo method was used to simulate the reaction kinetics and molecu...
Silica polymerization has been extensively used to synthesize various fascinating materials for indu...
Classical Molecular Dynamics (MD) simulations provide insight into the properties of many soft-matte...
Modeling free radical polymerization processes in the presence of cross-linkers is a challenging pr...
Photocurable systems have become very popular in the last years, however, little is known on the mol...
The stochastic nature of polymerization processes often leads to a mixture of chain populations with...
A novel computational strategy is described for the simulation of star polymerisations, allowing for...
A novel computational strategy is described for the simulation of star polymerisations, allowing for...
\u3cp\u3eSimulation studies of step-growth polymerization, e.g., polymerization of polyurethane syst...
The strength of combining experimental design and advanced kinetic Monte Carlo (kMC) modeling to und...
The strength of combining experimental design and advanced kinetic Monte Carlo (kMC) modeling to und...
In this paper we consider the application of automatic reaction network generation on a polymerizati...
Monte Carlo is a stochastic simulation tool which reaches the molecular level to predict both micros...
Many research fields, reaching from social networks and epidemiology to biology and physics, have ex...
Most of the theoretical studies on polymer kinetics has been performed by manually reducing the chem...
A computationally efficient Monte Carlo method was used to simulate the reaction kinetics and molecu...
Silica polymerization has been extensively used to synthesize various fascinating materials for indu...
Classical Molecular Dynamics (MD) simulations provide insight into the properties of many soft-matte...
Modeling free radical polymerization processes in the presence of cross-linkers is a challenging pr...
Photocurable systems have become very popular in the last years, however, little is known on the mol...
The stochastic nature of polymerization processes often leads to a mixture of chain populations with...
A novel computational strategy is described for the simulation of star polymerisations, allowing for...
A novel computational strategy is described for the simulation of star polymerisations, allowing for...