Droplet behavior on structured surfaces has recently generated a lot of interest due to its application to self-cleaning surfaces and in microfluidic devices. In this paper, the droplet shape and the droplet state on superhydrophobic surfaces are predicted using the Volume of Fluid (VOF) approach. Various structured surfaces are considered and the apparent contact angles are extracted from the predicted droplet shapes. Droplet dynamics under electrowetting are also modeled, including contact line friction. The model is validated against in-house experiments and experiments from the literature. The droplet state, droplet shape and apparent contact angles match well with the experimental measurements. The Cassie and Wenzel states on structure...
Electrowetting-based droplet actuation has applications in digital microfluidics. Mobility of drople...
This work reports on the modelling of, and experiments on, a method in which liquid is transported a...
This dissertation is targeted at the development of new approaches for enhanced electrical control o...
Droplet behavior on structured surfaces has recently generated a lot of interest due to its applicat...
Efficient droplet transport is critical in microassays, microfluidic devices, and a range of heat tr...
Electrowetting (EW) has recently been demonstrated as a powerful tool for controlling droplet morpho...
The primary objective of the present work is to study droplet dynamics on smooth hydrophobic and tex...
Electrical control of liquid droplet motion and wettability has wide-ranging applications in the fie...
The static shape of droplets under electrowetting actuation is well understood. The steady-state sha...
Usually, electrowetting on superhydrophobic surfaces (EWOSS) is generated by application of an alter...
Usually, electrowetting on superhydrophobic surfaces (EWOSS) is generated by application of an alter...
We study the wetting energetics and wetting hysteresis of sessile and impacting water droplets on su...
Usually, electrowetting on superhydrophobic surfaces (EWOSS) is generated by application of an alter...
This work reports on the modelling of, and experiments on, a method in which liquid is transported a...
This work reports on the modelling of, and experiments on, a method in which liquid is transported a...
Electrowetting-based droplet actuation has applications in digital microfluidics. Mobility of drople...
This work reports on the modelling of, and experiments on, a method in which liquid is transported a...
This dissertation is targeted at the development of new approaches for enhanced electrical control o...
Droplet behavior on structured surfaces has recently generated a lot of interest due to its applicat...
Efficient droplet transport is critical in microassays, microfluidic devices, and a range of heat tr...
Electrowetting (EW) has recently been demonstrated as a powerful tool for controlling droplet morpho...
The primary objective of the present work is to study droplet dynamics on smooth hydrophobic and tex...
Electrical control of liquid droplet motion and wettability has wide-ranging applications in the fie...
The static shape of droplets under electrowetting actuation is well understood. The steady-state sha...
Usually, electrowetting on superhydrophobic surfaces (EWOSS) is generated by application of an alter...
Usually, electrowetting on superhydrophobic surfaces (EWOSS) is generated by application of an alter...
We study the wetting energetics and wetting hysteresis of sessile and impacting water droplets on su...
Usually, electrowetting on superhydrophobic surfaces (EWOSS) is generated by application of an alter...
This work reports on the modelling of, and experiments on, a method in which liquid is transported a...
This work reports on the modelling of, and experiments on, a method in which liquid is transported a...
Electrowetting-based droplet actuation has applications in digital microfluidics. Mobility of drople...
This work reports on the modelling of, and experiments on, a method in which liquid is transported a...
This dissertation is targeted at the development of new approaches for enhanced electrical control o...
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