An anisotropic colloidal shape in combination with an externally tunable interaction potential results in a plethora of self-assembled structures with potential applications toward the fabrication of smart materials. Here we present our investigation on the influence of an external magnetic field on the self-assembly of hematite-silica core-shell prolate colloids for two aspect ratios ρ = 2.9 and 3.69. Our study shows a rather counterintuitive but interesting phenomenon, where prolate colloids self-assemble into oblate liquid crystalline (LC) phases. With increasing concentration, particles with smaller ρ reveal a sequence of LC phases involving para-nematic, nematic, smectic, and oriented glass phases. The occurrence of a smectic phase for...
We combine experiments and theory to investigate the orientational dynamics of dipolar ellipsoids, w...
Manipulation of the self-assembly of magnetic colloidal particles by an externally applied magnetic ...
The synthesis and assembly of anisometric colloids (500 nm to ~2 μm) have attracted recent interest ...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
The synthesis and assembly of anisometric colloids (500 nm to ~2 um) have attracted recent interest ...
Establishing novel synthesis protocols to design a new type of colloids has become an important aspe...
Hypothesis: Colloidal molecules with anisotropic shapes and interactions are powerful model systems ...
Manipulation of the self-assembly of magnetic colloidal particles by an externally applied magnetic ...
Manipulation of the self-assembly of magnetic colloidal particles by an externally applied magnetic ...
Hypothesis: Colloidal molecules with anisotropic shapes and interactions are powerful model systems ...
We combine experiments and theory to investigate the orientational dynamics of dipolar ellipsoids, w...
Manipulation of the self-assembly of magnetic colloidal particles by an externally applied magnetic ...
The synthesis and assembly of anisometric colloids (500 nm to ~2 μm) have attracted recent interest ...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
An anisotropic colloidal shape in combination with an externally tunable interaction potential resul...
The synthesis and assembly of anisometric colloids (500 nm to ~2 um) have attracted recent interest ...
Establishing novel synthesis protocols to design a new type of colloids has become an important aspe...
Hypothesis: Colloidal molecules with anisotropic shapes and interactions are powerful model systems ...
Manipulation of the self-assembly of magnetic colloidal particles by an externally applied magnetic ...
Manipulation of the self-assembly of magnetic colloidal particles by an externally applied magnetic ...
Hypothesis: Colloidal molecules with anisotropic shapes and interactions are powerful model systems ...
We combine experiments and theory to investigate the orientational dynamics of dipolar ellipsoids, w...
Manipulation of the self-assembly of magnetic colloidal particles by an externally applied magnetic ...
The synthesis and assembly of anisometric colloids (500 nm to ~2 μm) have attracted recent interest ...