We describe a new class of phenomenological mesoscopic models to simulate the phase separation dynamics in three dimensional complex liquids, based on dynamic density functional methods. These models are generalizations of time-dependent Ginzburg-Landau models and contain a molecular description of the liquids in the free energy functional. Possible applications are in process industries (HIPS, paints, detergents, surfactants,...), petroleum industries (oil recovery), pharmaceutical industries (drug delivery) and consumer product industries (food processing, cosmetics). We show the results of the simulation of the microphase behaviour of aqueous PL64 solutions. The work described here was mainly done within ESPRIT research projects funded b...
In this paper we extend the dynamic mean-field density functional method, derived from the generaliz...
The phase behavior of the (EO)13(PO)30(EO)13(Pluronic L64)/water/p-xylene system in the mesoscopic r...
The new dynamic density functional method-mesoscopic dynamics (Mesodyn)-was used to simulate microph...
We describe a new class of phenomenological mesoscopic models to simulate the phase separation dynam...
We describe a new class of phenomenological mesoscopic models to simulate the phase separation dynam...
This thesis describes the first applications of the dynamic density functional method, a new computa...
The present paper deals with a new dynamic density functional method to calculate the kinetics of (m...
Complex polymer liquids form a system in which active processes play an important role. The constitu...
My PhD project has been devoted to a broad exploration of coarse graining and multi-scale techniques...
In this thesis we report on molecular dynamics simulations of phase separation of simple and complex...
Computer simulations can be used in parallel with experimental techniques to gain valuable insights ...
This thesis reports the application of mesoscale modelling technique to study of the behaviour of co...
The phase behavior of the (EO)(13)(PO)(30)(EO)(13)(Pluronic L64)/water/p-xylene system in the mesosc...
We simulate the microphase separation dynamics of aqueous solutions of the triblock polymer surfacta...
This review covers three decades of research on mesoscale phenomena in chemical engineering, from th...
In this paper we extend the dynamic mean-field density functional method, derived from the generaliz...
The phase behavior of the (EO)13(PO)30(EO)13(Pluronic L64)/water/p-xylene system in the mesoscopic r...
The new dynamic density functional method-mesoscopic dynamics (Mesodyn)-was used to simulate microph...
We describe a new class of phenomenological mesoscopic models to simulate the phase separation dynam...
We describe a new class of phenomenological mesoscopic models to simulate the phase separation dynam...
This thesis describes the first applications of the dynamic density functional method, a new computa...
The present paper deals with a new dynamic density functional method to calculate the kinetics of (m...
Complex polymer liquids form a system in which active processes play an important role. The constitu...
My PhD project has been devoted to a broad exploration of coarse graining and multi-scale techniques...
In this thesis we report on molecular dynamics simulations of phase separation of simple and complex...
Computer simulations can be used in parallel with experimental techniques to gain valuable insights ...
This thesis reports the application of mesoscale modelling technique to study of the behaviour of co...
The phase behavior of the (EO)(13)(PO)(30)(EO)(13)(Pluronic L64)/water/p-xylene system in the mesosc...
We simulate the microphase separation dynamics of aqueous solutions of the triblock polymer surfacta...
This review covers three decades of research on mesoscale phenomena in chemical engineering, from th...
In this paper we extend the dynamic mean-field density functional method, derived from the generaliz...
The phase behavior of the (EO)13(PO)30(EO)13(Pluronic L64)/water/p-xylene system in the mesoscopic r...
The new dynamic density functional method-mesoscopic dynamics (Mesodyn)-was used to simulate microph...