Utilizing droplet microfluidics allows for quicker point-of-care testing (POCT) but is not always as accurate, and currently requires an amount of external effort for proper handling.

We have developed a microfluidic system which delivers highly-controlled conditions for the seeding and growth of polarized cellular spheres, or acini, within matrigel beads. We use high-throughput ...

We have developed fully integrated droplet-based microfluidic platforms for the screening of therapeutic antibodies1, 2. In these systems tiny aqueous droplets (picoliter volumes) surrounded by oil ...

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 ...

Microfluidics tools are used to manipulate liquids and gas ... research environment for exploring tissue engineering and cell therapies. In a microgel droplet we can work with materials in ways that ...

Attracting experts working in microfluidic development and application, including point-of-care diagnostics, single cell analysis, lab-on-a-chip applications, droplet microfluidics and next generation ...

Droplet-array sandwiching technology (DAST) lets one use droplets as tiny reaction chambers or cell culture media. In a recent study, scientists demonstrated how novel techniques to control the ...

Droplet-based microfluidics has emerged as one of the most active research fields in microfluidics. As the world’s leading chemistry community, the Royal Society of Chemistry is pleased to collaborate ...