Kinetic Monte Carlo (KMC) has become a well-established technique for simulating the kinetics of free radical polymerization, both to generate polymer molecular weight distributions and, more recently, to track the explicit monomer sequence in every chain. However, KMC simulations require a minimal number of molecules in order to accurately describe monomer conversion and macromolecular quantities, which can render them computationally prohibitive. In this work, we propose a novel approach for accelerating KMC simulations through scaling relationships that allow the number of molecules simulated to be reduced. Using the concept of the minimal number of molecules and an explicit expression we derived for copolymerization, we propose a factor...
Modeling free radical polymerization processes in the presence of cross-linkers is a challenging pr...
A novel, parallelised approach to Monte Carlo simulations for the computation of full molecular weig...
Monte Carlo is a stochastic simulation tool which reaches the molecular level to predict both micros...
While Kinetic Monte Carlo (KMC) techniques provide a powerful means to model polymer microstructure,...
Maintaining the quality and cost-efficiency of industrialized materials often requires tradeoffs. Fo...
Radical polymerization is prone to diffusional limitations on termination, leading to a rate acceler...
The relevance of kinetic Monte Carlo (kMC) algorithms and modeling to obtain and tune detailed molec...
A kinetic gelation model that incorporates the kinetics of free radical homo-polymerization is imple...
A challenge in the field of polymer network synthesis by a step-growth mechanism is the quantificati...
A challenge in the field of polymer network synthesis by a step-growth mechanism is the quantificati...
For postpolymerization modification, a novel kinetic Monte Carlo (kMC) modeling strategy for the des...
A kinetic gelation model that incorporates the kinetic of non-linear free radical copolymerization o...
In many studies on emulsion polymerization emphasis is on a constant average particle size and an av...
Utilizing model calculations may lead to a better understanding of the complex kinetics of the contr...
In many studies on emulsion polymerization emphasis is on a constant average particle size and an av...
Modeling free radical polymerization processes in the presence of cross-linkers is a challenging pr...
A novel, parallelised approach to Monte Carlo simulations for the computation of full molecular weig...
Monte Carlo is a stochastic simulation tool which reaches the molecular level to predict both micros...
While Kinetic Monte Carlo (KMC) techniques provide a powerful means to model polymer microstructure,...
Maintaining the quality and cost-efficiency of industrialized materials often requires tradeoffs. Fo...
Radical polymerization is prone to diffusional limitations on termination, leading to a rate acceler...
The relevance of kinetic Monte Carlo (kMC) algorithms and modeling to obtain and tune detailed molec...
A kinetic gelation model that incorporates the kinetics of free radical homo-polymerization is imple...
A challenge in the field of polymer network synthesis by a step-growth mechanism is the quantificati...
A challenge in the field of polymer network synthesis by a step-growth mechanism is the quantificati...
For postpolymerization modification, a novel kinetic Monte Carlo (kMC) modeling strategy for the des...
A kinetic gelation model that incorporates the kinetic of non-linear free radical copolymerization o...
In many studies on emulsion polymerization emphasis is on a constant average particle size and an av...
Utilizing model calculations may lead to a better understanding of the complex kinetics of the contr...
In many studies on emulsion polymerization emphasis is on a constant average particle size and an av...
Modeling free radical polymerization processes in the presence of cross-linkers is a challenging pr...
A novel, parallelised approach to Monte Carlo simulations for the computation of full molecular weig...
Monte Carlo is a stochastic simulation tool which reaches the molecular level to predict both micros...