Pressure Driven Flow

Turn to Fluigent, a Paris-based market leader in microfluidics and nanofluidics, for solutions that will allow you to focus on the science, not on the setup. With a global presence that includes offices and distributors in Europe, North America, Asia, and the Middle East, Fluigent develops, manufactures, and commercializes a range of innovative fluid handling solutions, including many that are compatible with lab-on-a-chip devices. We have delivered our patented microfluidic flow control system MFCS™ to hundreds of customers worldwide, aiding them in replacing standard microfluidic pressure pumps with streamlined and user-friendly solutions.



Are you a microfluidics specialist seeking innovative solutions compatible with lab-on-a-chip devices?

Conventional microfluidics instruments such as syringe or peristaltic pumps are poorly adapted to the manipulation of fluid volumes in the nanoliter range, leading to less than optimal flow control. To solve this problem, FLUIGENT developed its patented FASTAB™ technology, a pressure-driven system featuring an advanced feedback control algorithm designed entirely without mechanical parts. This innovative solution, compatible with most lab-on-a-chip-technology systems, guarantees a pulseless flow and greater responsiveness, ensuring optimal results. If you’re seeking cutting-edge solutions to develop a wide range of microfluidics devices and applications using lab-on-a-chip-technology, our innovative suite of products offer precision, ease of use, and full control.

Lab-on-a-chip microfluidics applications require optimal flow control and minimal contamination risk. Fluigent’s MFCS™-EZ is an advanced pressure flow controller specifically designed for nanofluidic and microfluidic applications. It can handle all kinds of fluids by pressuring the Fluiwell reservoirs containing liquids. Up to four separate channels provide positive (from 25 to 7000mbar) and/or negative (from -25 to -800mbar) pressure as per users’ convenience. The fast, stable system featuring field-proven technology is easy to install, use, and automate. Moreover, there is no risk of cross-contamination between liquids and the MFCS™-EZ as liquids do not enter the device. These features are ideal for lab-on-a-chip microfluidics systems, nanofluidics chip applications, and multichannel microfluidic systems.