The dynamic mean-field density functional method is used to describe phase separation including hydrodynamic effects in specific three-dimensional (3D) compressible copolymer liquids. We show that it is justified to use Darcy’s approximation for the velocity field. This simple model enables us to reproduce both the increased domain growth and the faster removal of defects that are a result of hydrodynamics. We perform a simulation of a diblock copolymer melt to study the viscous effects in 3D. The free energy is shown to decrease twice as fast as in a simulation which only includes diffusion. The hydrodynamics are shown to become important only in the later stages of phase separation as is also predicted from theoretical analysis. The separ...
We present results from extensive three-dimensional molecular dynamics (MD) simulations of phase sep...
In the present paper, we extend the dynamic mean-field density functional method which describes mic...
We have derived an expression for the global stress in inhomogeneous complex copolymer liquids. We a...
The dynamic mean-field density functional method is used to describe phase separation including hydr...
The dynamic mean-field density functional method is used to describe phase separation including hydr...
In the present paper, we extend the dynamic mean-field density functional method which describes mic...
In this paper we discuss a new generalized time-dependent Ginzburg-Landau theory for the numerical c...
The first three-dimensional (3D) simulation of meso-phase formation in a specific polymer system—55%...
The dynamic mean-field density functional method is adapted to describe phase separation in the pres...
In this paper, we describe a numerical method for the calculation of collective diffusion relaxation...
We present detailed results from a molecular dynamics (MD) simulation of phase-separation kinetics i...
We present results from extensive three-dimensional molecular dynamics (MD) simulations of phase sep...
In the present paper, we extend the dynamic mean-field density functional method which describes mic...
We have derived an expression for the global stress in inhomogeneous complex copolymer liquids. We a...
The dynamic mean-field density functional method is used to describe phase separation including hydr...
The dynamic mean-field density functional method is used to describe phase separation including hydr...
In the present paper, we extend the dynamic mean-field density functional method which describes mic...
In this paper we discuss a new generalized time-dependent Ginzburg-Landau theory for the numerical c...
The first three-dimensional (3D) simulation of meso-phase formation in a specific polymer system—55%...
The dynamic mean-field density functional method is adapted to describe phase separation in the pres...
In this paper, we describe a numerical method for the calculation of collective diffusion relaxation...
We present detailed results from a molecular dynamics (MD) simulation of phase-separation kinetics i...
We present results from extensive three-dimensional molecular dynamics (MD) simulations of phase sep...
In the present paper, we extend the dynamic mean-field density functional method which describes mic...
We have derived an expression for the global stress in inhomogeneous complex copolymer liquids. We a...