Add to ORKGWe present a mesoscopic model able to capture the physics of drops moving across patterned surfaces. In this model, interfaces appear naturally, and both chemical and topological patterning can be incorporated with relative ease, making it particularly suitable to study the behaviour of evolving drops. We summarise results on drop dynamics, including drops spreading on a chemically patterned surface, using a hydrophobic grid to alleviate mottle and the transition and dynamics of drops moving across a super hydrophobic surface
International audienceWe report the influence of the nature of boundaries on the dynamics of wetting...
We explore numerically the feasibility of using chemical patterning to control the size and polydisp...
The equilibrium shape of droplets on surfaces, functionalized with stripes of alternating wettabilit...
We compare numerical and experimental results exploring the behaviour of liquid drops moving across ...
We present a lattice Boltzmann algorithm which can be used to explore the spreading of droplets on c...
Abstract. We present a lattice Boltzmann algorithm which can be used to explore the spreading of dro...
We present a lattice Boltzmann model to describe the spreading of droplets on topologically patterne...
We report the results of extensive experimental studies of the sliding of water drops on chemically ...
We present a lattice Boltzmann solution of the equations of motion describing the spreading of dropl...
We report the results of extensive experimental studies of the sliding of water drops on chemically ...
When a liquid drop spreads on an adaptive substrate the latter changes its properties what may resul...
We explore how chemical patterning on surfaces can be used to control drop wetting. Both numerical a...
International audienceWe report an experimental study of the shape of large liquid drops spreading o...
Consider the spreading dynamics of a two-dimensional droplet over chemically heterogeneous substrate...
We present a numerical study of droplets sliding across chemically heterogeneous surfaces formed by ...
International audienceWe report the influence of the nature of boundaries on the dynamics of wetting...
We explore numerically the feasibility of using chemical patterning to control the size and polydisp...
The equilibrium shape of droplets on surfaces, functionalized with stripes of alternating wettabilit...
We compare numerical and experimental results exploring the behaviour of liquid drops moving across ...
We present a lattice Boltzmann algorithm which can be used to explore the spreading of droplets on c...
Abstract. We present a lattice Boltzmann algorithm which can be used to explore the spreading of dro...
We present a lattice Boltzmann model to describe the spreading of droplets on topologically patterne...
We report the results of extensive experimental studies of the sliding of water drops on chemically ...
We present a lattice Boltzmann solution of the equations of motion describing the spreading of dropl...
We report the results of extensive experimental studies of the sliding of water drops on chemically ...
When a liquid drop spreads on an adaptive substrate the latter changes its properties what may resul...
We explore how chemical patterning on surfaces can be used to control drop wetting. Both numerical a...
International audienceWe report an experimental study of the shape of large liquid drops spreading o...
Consider the spreading dynamics of a two-dimensional droplet over chemically heterogeneous substrate...
We present a numerical study of droplets sliding across chemically heterogeneous surfaces formed by ...
International audienceWe report the influence of the nature of boundaries on the dynamics of wetting...
We explore numerically the feasibility of using chemical patterning to control the size and polydisp...
The equilibrium shape of droplets on surfaces, functionalized with stripes of alternating wettabilit...