The dynamic mean-field density functional method is adapted to describe phase separation in the presence of geometrical constraints. We observe that inclusion of small filler particles (such as rods) already has a dramatic effect on the morphology of polymer melts. The effect is comparable to the effect of applied simple steady shear. Mesostructures in the presence of large filler particles such as plates are totally governed by the geometry of the particle. Effects of polymer-surface interactions on morphology formation are investigated in detail
3D computer simulations of lamellar phase of a diblock copolymer melt under simple steady shear are ...
A remarkable feature of block copolymer systems is their ability to self-assemble into a variety of ...
In this chapter we review flow-induced mesophases in some crystalline polymers with rather different...
The dynamic mean-field density functional method is adapted to describe phase separation in the pres...
In this paper we discuss a new generalized time-dependent Ginzburg-Landau theory for the numerical c...
We present a reactive dynamic mean-field density functional method that gives insight in pathway con...
The dynamic mean‐field density functional method was applied to the mesoscopic dynamics of block cop...
We present a reactive dynamic mean-field density functional method that gives insight in pathway con...
Diblock-Copolymer Melts at patterned surfaces are investigated. Above the order-disorder transition ...
The dynamics of assembly of lamellar (clay) nanoparticles in a molten blend of polystyrene (PS) and ...
3D computer simulations of lamellar phase of a diblock copolymer melt under simple steady shear are ...
3D computer simulations of lamellar phase of a diblock copolymer melt under simple steady shear are ...
A remarkable feature of block copolymer systems is their ability to self-assemble into a variety of ...
In this chapter we review flow-induced mesophases in some crystalline polymers with rather different...
The dynamic mean-field density functional method is adapted to describe phase separation in the pres...
In this paper we discuss a new generalized time-dependent Ginzburg-Landau theory for the numerical c...
We present a reactive dynamic mean-field density functional method that gives insight in pathway con...
The dynamic mean‐field density functional method was applied to the mesoscopic dynamics of block cop...
We present a reactive dynamic mean-field density functional method that gives insight in pathway con...
Diblock-Copolymer Melts at patterned surfaces are investigated. Above the order-disorder transition ...
The dynamics of assembly of lamellar (clay) nanoparticles in a molten blend of polystyrene (PS) and ...
3D computer simulations of lamellar phase of a diblock copolymer melt under simple steady shear are ...
3D computer simulations of lamellar phase of a diblock copolymer melt under simple steady shear are ...
A remarkable feature of block copolymer systems is their ability to self-assemble into a variety of ...
In this chapter we review flow-induced mesophases in some crystalline polymers with rather different...