We have studied the motion of liquid droplets located in the contact zone of two soft solids that are pressed together inside a liquid. The driving force of the motion is the gradient of elastic contact pressure. Upon reaching the perimeter of the contact spot, the droplets coalesce with the surrounding bulk liquid either in a continuous or discontinuous fashion. Droplets that exhibit complete coalescence move with a speed proportional to the pressure gradient along their trajectory. However, droplets that undergo partial coalescence cascades (up to 9 were observed) do not. The latter also move significantly slower. We have identified surface roughness as a potential mechanism causing the contrasting behavior
Unexpectedly, under certain conditions, sessile drops from different but completely miscible liquids...
When two sessile drops of the same liquid touch, they merge into one drop, driven by capillarity. Ho...
When two Newtonian liquid droplets are brought into contact on a solid substrate, a highly curved me...
We have studied the motion of liquid droplets located in the contact zone of two soft solids that ar...
We have studied the motion of liquid droplets located in the contact zone of two soft solids that ar...
<p>Coalescence of liquid drops is critical in many phenomena such as emulsion stability, inkjet prin...
When a droplet of liquid 1 falls through liquid 2 to eventually hit the liquid 2-liquid 1 interface,...
Due to capillarity, sessile droplets of identical liquids will instantaneously fuse when they come i...
When two separate masses of the same fluid are broughtgently into contact, they are expected to full...
Using computer simulations in three spatial dimensions, we examine the interaction between two defor...
Due to capillarity, sessile droplets of identical liquids will instantaneously fuse when they come i...
When a drop is deposited gently onto the surface of a layer of the same liquid, it sits momentarily ...
An investigation of the coalescence of two water drops on a surface is presented and compared with d...
Liquid droplets occur in many natural phenomena and play an important role in a large number of indu...
The coalescence of water drops on a substrate is studied experimentally. We focus on the rapid growt...
Unexpectedly, under certain conditions, sessile drops from different but completely miscible liquids...
When two sessile drops of the same liquid touch, they merge into one drop, driven by capillarity. Ho...
When two Newtonian liquid droplets are brought into contact on a solid substrate, a highly curved me...
We have studied the motion of liquid droplets located in the contact zone of two soft solids that ar...
We have studied the motion of liquid droplets located in the contact zone of two soft solids that ar...
<p>Coalescence of liquid drops is critical in many phenomena such as emulsion stability, inkjet prin...
When a droplet of liquid 1 falls through liquid 2 to eventually hit the liquid 2-liquid 1 interface,...
Due to capillarity, sessile droplets of identical liquids will instantaneously fuse when they come i...
When two separate masses of the same fluid are broughtgently into contact, they are expected to full...
Using computer simulations in three spatial dimensions, we examine the interaction between two defor...
Due to capillarity, sessile droplets of identical liquids will instantaneously fuse when they come i...
When a drop is deposited gently onto the surface of a layer of the same liquid, it sits momentarily ...
An investigation of the coalescence of two water drops on a surface is presented and compared with d...
Liquid droplets occur in many natural phenomena and play an important role in a large number of indu...
The coalescence of water drops on a substrate is studied experimentally. We focus on the rapid growt...
Unexpectedly, under certain conditions, sessile drops from different but completely miscible liquids...
When two sessile drops of the same liquid touch, they merge into one drop, driven by capillarity. Ho...
When two Newtonian liquid droplets are brought into contact on a solid substrate, a highly curved me...