Often, microfluidic devices and systems are designed to replicate or model the behaviors observed in natural systems. For example, microfluidic devices can be engineered to replicate the behavior of ...

Years ago, prototyping microfluidic systems was a long, time-intensive task. With inspiration from DIY PCB fabrication techniques, that time is now greatly reduced. However, even with the ...

With the integration of this technology, Quake and his team also streamlined cell sorting and performed polymerase chain reaction on microfluidic chips. 3 Microfluidic systems greatly aided ...

The Under-oil Open Microfluidic System enhances tumor cell-ECM interaction studies, improving anti-metastatic drug testing for triple-negative breast cancer.

A team of researchers from the Hefei Institutes of Physical Science of the Chinese Academy of Sciences has developed a ...

The Instrument for Biomolecular Interaction Sensing MultipleX 96 (IBIS-MX96) is a comprehensive system for multiplex biomolecular interaction imaging. The MX96 is optimized for monitoring 96 ...

These are: The continuous phase (oil, medium in which droplets flow) The dispersed phase (water, the droplet) Microfluidic systems typically consist of a microfluidic chip, a fluid handling device ...

Originally developed in the Wheeler lab, the DropBot system is an open-source project that works towards making digital microfluidic devices more accessible. We first visited the Wheeler lab at the ...

Built around Dolomite’s industry leading microfluidic products, the Micro Droplet Generation Systems provide a complete solution for droplet microfluidics, allowing users to seamlessly produce ...

Easy to install and use Easy to automate Fast and stable Field proven technology The MFCS™ is a pressure-driven flow controller designed to control independently up to 4 channels of your microfluidic ...