Add to ORKGParticles adsorbed at a fluid-fluid interface induce capillary deformations that determine their orientations and generate mutual capillary interactions which drive them to assemble into 2D ordered structures. We numerically calculate, by energy minimization, the capillary deformations induced by adsorbed cubes for various Young’s contact angles. First, we show that capillarity is crucial not only for quantitative, but also for qualitative predictions of equilibrium configurations of a single cube. For a Young’s contact angle close to 90°, we show that a single-adsorbed cube generates a hexapolar interface deformation with three rises and three depressions. Thanks to the threefold symmetry of this hexapole, strongly directional capillary in...
On the basis of a collection of experimental data, this paper analyses the interplay between dihedra...
Micron-sized anisotropic particles with homogeneous surface properties at a fluid interface can defo...
Self-assembly of nanoparticles (NPs) inside drying emulsion droplets provides a general strategy for...
Particles adsorbed at a fluid-fluid interface induce capillary deformations that determine their ori...
Colloidal particles adsorbed at fluid–fluid interfaces can self-assemble, thanks to capillary intera...
Inspired by recent experimental observations of spontaneous chain formation of cubic particles adsor...
Inspired by recent experimental observations of spontaneous chain formation of cubic particles adsor...
In this thesis, first we provide a theoretical introduction about fluid-fluid interfaces, and the ma...
The dependence of the orientation of microscale PS cubes, which are surface functionalized on only f...
There\u27s a great interest in studying particle assembly on fluid interfaces for their properties t...
Objects floating at a liquid interface, such as breakfast cereals floating in a bowl of milk or bubb...
In this work, we show how and why the interactions between charged cubic colloids range from radiall...
This paper examines self-assembly in a quasi-two-dimensional, mesoscale system. The system studied h...
Using a coarse-grained molecular dynamics model, we simulate the self-assembly of PbSe nanocrystals ...
Using Molecular Dynamics simulations to explicitly model fluid molecules, we study the effect of sol...
On the basis of a collection of experimental data, this paper analyses the interplay between dihedra...
Micron-sized anisotropic particles with homogeneous surface properties at a fluid interface can defo...
Self-assembly of nanoparticles (NPs) inside drying emulsion droplets provides a general strategy for...
Particles adsorbed at a fluid-fluid interface induce capillary deformations that determine their ori...
Colloidal particles adsorbed at fluid–fluid interfaces can self-assemble, thanks to capillary intera...
Inspired by recent experimental observations of spontaneous chain formation of cubic particles adsor...
Inspired by recent experimental observations of spontaneous chain formation of cubic particles adsor...
In this thesis, first we provide a theoretical introduction about fluid-fluid interfaces, and the ma...
The dependence of the orientation of microscale PS cubes, which are surface functionalized on only f...
There\u27s a great interest in studying particle assembly on fluid interfaces for their properties t...
Objects floating at a liquid interface, such as breakfast cereals floating in a bowl of milk or bubb...
In this work, we show how and why the interactions between charged cubic colloids range from radiall...
This paper examines self-assembly in a quasi-two-dimensional, mesoscale system. The system studied h...
Using a coarse-grained molecular dynamics model, we simulate the self-assembly of PbSe nanocrystals ...
Using Molecular Dynamics simulations to explicitly model fluid molecules, we study the effect of sol...
On the basis of a collection of experimental data, this paper analyses the interplay between dihedra...
Micron-sized anisotropic particles with homogeneous surface properties at a fluid interface can defo...
Self-assembly of nanoparticles (NPs) inside drying emulsion droplets provides a general strategy for...