The present study deals with the mathematical modeling of crosslinking kinetics of polymer–phenol conjugates mediated by the Horseradish Peroxidase (HRP)-hydrogen peroxide (H2O2) initiation system. More specifically, a dynamic Monte Carlo (MC) kinetic model is developed to quantify the effects of crosslinking conditions (i.e., polymer concentration, degree of phenol substitution and HRP and H2O2 concentrations) on the gelation onset time; evolution of molecular weight distribution and number and weight average molecular weights of the crosslinkable polymer chains and gel fraction. It is shown that the MC kinetic model can faithfully describe the crosslinking kinetics of a finite sample of crosslinkable polymer chains with time, providing de...
A kinetic gelation model that incorporates the kinetics of free radical homo-polymerization is imple...
A model of free-radical cross-linking copolymerization in solution, based on Flory's gelation theory...
Hyaluronic Acid (HA) is a non-sulphated glycosaminoglycan that, despite its high molecular weight, i...
Modeling free radical polymerization processes in the presence of cross-linkers is a challenging pr...
The diverse requirements of hydrogels for tissue engineering motivate the development of cross-linki...
A computationally efficient Monte Carlo method was used to simulate the reaction kinetics and molecu...
A recently developed general kinetic approach, based on population balances in terms of generating f...
We transform reconstituted silk solutions into robust hydrogels through covalent dityrosine cross-li...
Monte Carlo is a stochastic simulation tool which reaches the molecular level to predict both micros...
Recent work [1-2] has developed a a dynamic monte carlo percolation grid simulation which can succes...
Hydrogels are mechanically stabilized through the action of external agents which induce the formati...
Crosslinking polymerization has been studied by means of a four-dimensional population balance model...
Dynamic hydrogels have recently demonstrated utility as versatile biomaterials. Characterized by the...
Traditionally, a drug is administered initially at a higher dosage so as to repeat the next dose aft...
Understanding polymer gelation over multiple length-scales is crucial to develop advanced materials....
A kinetic gelation model that incorporates the kinetics of free radical homo-polymerization is imple...
A model of free-radical cross-linking copolymerization in solution, based on Flory's gelation theory...
Hyaluronic Acid (HA) is a non-sulphated glycosaminoglycan that, despite its high molecular weight, i...
Modeling free radical polymerization processes in the presence of cross-linkers is a challenging pr...
The diverse requirements of hydrogels for tissue engineering motivate the development of cross-linki...
A computationally efficient Monte Carlo method was used to simulate the reaction kinetics and molecu...
A recently developed general kinetic approach, based on population balances in terms of generating f...
We transform reconstituted silk solutions into robust hydrogels through covalent dityrosine cross-li...
Monte Carlo is a stochastic simulation tool which reaches the molecular level to predict both micros...
Recent work [1-2] has developed a a dynamic monte carlo percolation grid simulation which can succes...
Hydrogels are mechanically stabilized through the action of external agents which induce the formati...
Crosslinking polymerization has been studied by means of a four-dimensional population balance model...
Dynamic hydrogels have recently demonstrated utility as versatile biomaterials. Characterized by the...
Traditionally, a drug is administered initially at a higher dosage so as to repeat the next dose aft...
Understanding polymer gelation over multiple length-scales is crucial to develop advanced materials....
A kinetic gelation model that incorporates the kinetics of free radical homo-polymerization is imple...
A model of free-radical cross-linking copolymerization in solution, based on Flory's gelation theory...
Hyaluronic Acid (HA) is a non-sulphated glycosaminoglycan that, despite its high molecular weight, i...