Add to ORKGObjects floating at a liquid interface, such as breakfast cereals floating in a bowl of milk or bubbles at the surface of a soft drink, clump together as a result of capillary attraction. This attraction arises from deformation of the liquid interface due to gravitational forces; these deformations cause excess surface area that can be reduced if the particles move closer together. For micrometer-sized colloids, however, the gravitational force is too small to produce significant interfacial deformations, so capillary forces between spherical colloids at a flat interface are negligible. Here, we show that this is different when the confining liquid interface has a finite curvature that is also anisotropic. In that case, the condition of con...
We study the capillary forces acting on sub-millimeter particles (0.02-0.6 mm) trapped at a liquid-l...
Assemblies of monolayers made of colloidal silica particles trapped at the air/water interface are p...
Colloidal particles adsorbed at fluid–fluid interfaces can self-assemble, thanks to capillary intera...
Objects floating at a liquid interface, such as breakfast cereals floating in a bowl of milk or bubb...
There\u27s a great interest in studying particle assembly on fluid interfaces for their properties t...
<p> </p> <p> This thesis deals with spherical microparticles trapped at liquid interfaces. It focuse...
Micron-sized anisotropic particles with homogeneous surface properties at a fluid interface can defo...
We consider a liquid interface with different principal curvatures ±c and find that the mere presenc...
Micron-sized anisotropic particles with homogeneous surface properties at a fluid interface can defo...
We show that near-spherical micrometer-sized colloidal particles at an interface of two fluids exper...
The trapping and interaction of nano- and micro-particles at fluid interfaces is broadly important i...
My research is in the field of interfacial phenomena. Since all materials are bounded by surfaces or...
My research is in the field of interfacial phenomena. Since all materials are bounded by surfaces or...
There\u27s a great interest in studying particle assembly on fluid interfaces for their properties t...
Nanometre- and micrometre-sized charged particles at aqueous interfaces are typically stabilized by ...
We study the capillary forces acting on sub-millimeter particles (0.02-0.6 mm) trapped at a liquid-l...
Assemblies of monolayers made of colloidal silica particles trapped at the air/water interface are p...
Colloidal particles adsorbed at fluid–fluid interfaces can self-assemble, thanks to capillary intera...
Objects floating at a liquid interface, such as breakfast cereals floating in a bowl of milk or bubb...
There\u27s a great interest in studying particle assembly on fluid interfaces for their properties t...
<p> </p> <p> This thesis deals with spherical microparticles trapped at liquid interfaces. It focuse...
Micron-sized anisotropic particles with homogeneous surface properties at a fluid interface can defo...
We consider a liquid interface with different principal curvatures ±c and find that the mere presenc...
Micron-sized anisotropic particles with homogeneous surface properties at a fluid interface can defo...
We show that near-spherical micrometer-sized colloidal particles at an interface of two fluids exper...
The trapping and interaction of nano- and micro-particles at fluid interfaces is broadly important i...
My research is in the field of interfacial phenomena. Since all materials are bounded by surfaces or...
My research is in the field of interfacial phenomena. Since all materials are bounded by surfaces or...
There\u27s a great interest in studying particle assembly on fluid interfaces for their properties t...
Nanometre- and micrometre-sized charged particles at aqueous interfaces are typically stabilized by ...
We study the capillary forces acting on sub-millimeter particles (0.02-0.6 mm) trapped at a liquid-l...
Assemblies of monolayers made of colloidal silica particles trapped at the air/water interface are p...
Colloidal particles adsorbed at fluid–fluid interfaces can self-assemble, thanks to capillary intera...