Add to ORKGWe study pattern formation in gels undergoing simultaneous phase separation and orientational ordering. A 2D numerical simulation is performed using a minimal model of nonlinear elasticity with density-anisotropy coupling. For strong positive coupling, the collapsed phase elongates along the phase boundary and buckle, creating a folded structure with paired topological defects. For negative coupling, soft elasticity of the swollen phase causes a droplet morphology as in liquid-liquid phase separation. Their possible realizations in nematic liquid-crystalline gels are discussed
A novel model system of hard colloidal platelets was observed to phase-separate into an isotropic an...
In this study we propose a novel phase-field theory based on non-equilibrium thermodynamics that res...
Glycerol droplets at a nematic-liquid-crystal -air interface form two different lattices -hexagonal ...
We study pattern formation in gels undergoing simultaneous phase separation and orientational orderi...
Experiments and theories have shown that nematic fluids may adopt inhomogeneous steady states under ...
We study gel formation in a mixture of equally-sized oppositely charged colloids both experimentally...
Phase separation of a binary mixture, which consists of isotropic fluid, such as a flexible polymer,...
We study gel formation in a mixture of equally-sized oppositely charged colloids both experimentally...
We study gel formation in a mixture of equally-sized oppositely charged colloids both experimentally...
Abstract. In this paper, we discuss the equilibrium phases and collapse transitions of a lyotropic n...
Phase separation is one of the most fundamental physical phenomena that controls the morphology of h...
Phase separation is one of the most fundamental physical phenomena that controls the morphology of h...
This thesis describes our investigation of microstructure and phase behavior in colloids and liquid ...
We study the pattern formation of a chiral nematic liquid crystal under a wetting transition. In the...
A novel model system of hard colloidal platelets was observed to phase-separate into an isotropic an...
A novel model system of hard colloidal platelets was observed to phase-separate into an isotropic an...
In this study we propose a novel phase-field theory based on non-equilibrium thermodynamics that res...
Glycerol droplets at a nematic-liquid-crystal -air interface form two different lattices -hexagonal ...
We study pattern formation in gels undergoing simultaneous phase separation and orientational orderi...
Experiments and theories have shown that nematic fluids may adopt inhomogeneous steady states under ...
We study gel formation in a mixture of equally-sized oppositely charged colloids both experimentally...
Phase separation of a binary mixture, which consists of isotropic fluid, such as a flexible polymer,...
We study gel formation in a mixture of equally-sized oppositely charged colloids both experimentally...
We study gel formation in a mixture of equally-sized oppositely charged colloids both experimentally...
Abstract. In this paper, we discuss the equilibrium phases and collapse transitions of a lyotropic n...
Phase separation is one of the most fundamental physical phenomena that controls the morphology of h...
Phase separation is one of the most fundamental physical phenomena that controls the morphology of h...
This thesis describes our investigation of microstructure and phase behavior in colloids and liquid ...
We study the pattern formation of a chiral nematic liquid crystal under a wetting transition. In the...
A novel model system of hard colloidal platelets was observed to phase-separate into an isotropic an...
A novel model system of hard colloidal platelets was observed to phase-separate into an isotropic an...
In this study we propose a novel phase-field theory based on non-equilibrium thermodynamics that res...
Glycerol droplets at a nematic-liquid-crystal -air interface form two different lattices -hexagonal ...