We report on new instabilities of the quasi-static equilibrium of water drops pinned by a hydrophobic inclined substrate. The contact line of a statically pinned drop exhibits three transitions of partial depinning: depinning of the advancing and receding parts of the contact line and depinning of the entire contact line leading to the drop's translational motion. We find a region of parameters where the classical Macdougall-Ockrent-Frenkel approach fails to estimate the critical volume of the statically pinned inclined drop
Experimental values of the maximum drop volume that can be sustained on an inclined solid surface ar...
Understanding the role of pinning force in droplet dynamic wetting is of critical importance for sur...
This PhD thesis collects different experimental studies in the field of wetting phenomena and open m...
Why does not gravity make drops slip down the inclined surfaces, e.g., plant leaves? The current exp...
The wetting behavior of a liquid drop sitting on an inclined plane is investigated experimentally an...
Controlling the motion of drops on solid surfaces is crucial in many natural phenomena and technolog...
Local contact line pinning prevents droplets from rearranging to minimal global energy, and models f...
We have studied the motion of liquid drops on an inclined plate subject to vertical vibrations. The ...
In a previous paper (S. Padmanabhan and A. Bose, J. Colloid Interface Sci., 123, 494, 1988), experim...
peer-reviewedIn the first part of the thesis, the evolution of a three-dimensional liquid drop on an...
International audienceWe present a theoretical study related to a recent experiment on the coalescen...
An evolution equation for the film thickness was derived recently combining diffuse interface theory...
International audienceThis article concerns the stability of a drop on a wall for which the contact ...
The contact angle of a fluid droplet on an heterogeneous surface is analyzed using the statistical d...
Pinning and depinning of drops on an inclined heterogeneous substrate is studied as a function of th...
Experimental values of the maximum drop volume that can be sustained on an inclined solid surface ar...
Understanding the role of pinning force in droplet dynamic wetting is of critical importance for sur...
This PhD thesis collects different experimental studies in the field of wetting phenomena and open m...
Why does not gravity make drops slip down the inclined surfaces, e.g., plant leaves? The current exp...
The wetting behavior of a liquid drop sitting on an inclined plane is investigated experimentally an...
Controlling the motion of drops on solid surfaces is crucial in many natural phenomena and technolog...
Local contact line pinning prevents droplets from rearranging to minimal global energy, and models f...
We have studied the motion of liquid drops on an inclined plate subject to vertical vibrations. The ...
In a previous paper (S. Padmanabhan and A. Bose, J. Colloid Interface Sci., 123, 494, 1988), experim...
peer-reviewedIn the first part of the thesis, the evolution of a three-dimensional liquid drop on an...
International audienceWe present a theoretical study related to a recent experiment on the coalescen...
An evolution equation for the film thickness was derived recently combining diffuse interface theory...
International audienceThis article concerns the stability of a drop on a wall for which the contact ...
The contact angle of a fluid droplet on an heterogeneous surface is analyzed using the statistical d...
Pinning and depinning of drops on an inclined heterogeneous substrate is studied as a function of th...
Experimental values of the maximum drop volume that can be sustained on an inclined solid surface ar...
Understanding the role of pinning force in droplet dynamic wetting is of critical importance for sur...
This PhD thesis collects different experimental studies in the field of wetting phenomena and open m...