The detailed physics behind droplet generation in microfluidic post-array devices has been clarified by scientists at Tokyo Tech. Through various experiments performed under different operational ...

Scientists develop new method for ultra-high speed droplet production in microfluidic devices using three-dimensional porous inverse colloidal crystal structures Over the past two decades ...

At Texas A&M University, one research lab is changing the game of droplet microfluidics, a technique that involves conducting experiments in nanoscale droplets of liquid in a controlled ...

Scientists have clarified he detailed physics behind droplet generation in microfluidic post-array devices, gaining important insights into how these small devices can be used to produce uniform ...

Now, researchers have unveiled a user-friendly method that generates individual droplets on demand with pinpoint accuracy. Using a modified microfluidic T-junction, the team combined fluid mechanics ...

Droplet-based microfluidic systems have already entered laboratories, and currently, it is possible to create (monodisperse) droplets that range in size from femto to nanoliters.

Microfluidic technologies have opened up new possibilities for ultra-low volume, and ultrafast assays, compared to bulk-scale counterparts. We have been focused on developing new tools for droplet ...

The challenge facing 3D cell culture today is to adapt current models to a systems biology approach - in particular, to enable RNA interference-based screens to study the effects of the ...

Scientists develop new method for ultra-high speed droplet production in microfluidic devices using three-dimensional porous inverse colloidal crystal structures.