We perform large-scale Monte Carlo simulations of orientational ordering in nematic shells and study the type and position of topological defects when an external electric field (homogeneous or quadrupolar) is applied. The field-induced variation of the defect number (and strength) can be used to change the valence of colloidal particles coated with a nematic layer
Using a Landau–de Gennes approach, we study the impact of confinement topology, geometry and externa...
Within a two-dimensional Landau–de Gennes tensorial formalism w tal ent der brid rtic val to maximiz...
We discuss the effect of electric field on the optoelastic trapping occurring when a micron size par...
We perform large-scale Monte Carlo simulations of orientational ordering in nematic shells and study...
We present a systematic lattice Monte Carlo simulation study of nematic ordering in thin nematic she...
Within a two-dimensional Landau–de Gennes tensorial formalism we study the equilibrium configuratio...
Using isothermal-isobaric Monte Carlo simulations we investigate defecttopologies due to a spherical...
Combining molecular dynamics and Monte Carlo simulation, we study defect structures around an elonga...
Colloids self-assemble into various organized superstructures determined by particle interactions. T...
Nematic shells are colloidal particles coated with nematic liquid crystal molecules, which may freel...
Most reported liquid crystal colloids involve the suspension of spherical particles, such as colloid...
Hypothesis: Colloidal particles in nematic liquid crystals (LCs) are of high interest for self-assem...
We demonstrate experimentally that the director of a planar nematic liquid crystal cell with degener...
We investigate the dynamic assembly and swarm translocation of anisometric colloidal particles dispe...
After a short introduction to colloids and liquid crystals, I will discuss the response of concentra...
Using a Landau–de Gennes approach, we study the impact of confinement topology, geometry and externa...
Within a two-dimensional Landau–de Gennes tensorial formalism w tal ent der brid rtic val to maximiz...
We discuss the effect of electric field on the optoelastic trapping occurring when a micron size par...
We perform large-scale Monte Carlo simulations of orientational ordering in nematic shells and study...
We present a systematic lattice Monte Carlo simulation study of nematic ordering in thin nematic she...
Within a two-dimensional Landau–de Gennes tensorial formalism we study the equilibrium configuratio...
Using isothermal-isobaric Monte Carlo simulations we investigate defecttopologies due to a spherical...
Combining molecular dynamics and Monte Carlo simulation, we study defect structures around an elonga...
Colloids self-assemble into various organized superstructures determined by particle interactions. T...
Nematic shells are colloidal particles coated with nematic liquid crystal molecules, which may freel...
Most reported liquid crystal colloids involve the suspension of spherical particles, such as colloid...
Hypothesis: Colloidal particles in nematic liquid crystals (LCs) are of high interest for self-assem...
We demonstrate experimentally that the director of a planar nematic liquid crystal cell with degener...
We investigate the dynamic assembly and swarm translocation of anisometric colloidal particles dispe...
After a short introduction to colloids and liquid crystals, I will discuss the response of concentra...
Using a Landau–de Gennes approach, we study the impact of confinement topology, geometry and externa...
Within a two-dimensional Landau–de Gennes tensorial formalism w tal ent der brid rtic val to maximiz...
We discuss the effect of electric field on the optoelastic trapping occurring when a micron size par...
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