Elvesys is committed to spreading microfluidics science, applications, and developments everywhere and by all means. So we provide open-access reviews, application notes, research summaries, videos, and webinars.
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From this page, browse through the numerous microfluidic application notes that can help you with your setup and experiments. These are detailed how-to tutorials on the applications of microfluidics in scientific research.
How pressure-driven flow control works, The advantages / disadvantages of the different technologies depending of your experimental requirements?
Active droplet generation in microfluidics provides an additional degree of freedom in manipulating both the size and the formation frequency of micro-droplets.
Microfluidics is widely used to develop tools for cell biology. The micrometer scale of its devices is particularly adapted to work with cells which allows to easily implement high throughput assays.
We disseminate microfluidics knowledge on chemistry, physics, and biology through our peer-reviewed microfluidics open-access research summaries.
Discover how BioTrojan attacks target PDMS microvalves in flow-based microfluidic biochips, compromising biomedical devices. Learn about innovative countermeasures, including design improvements and spectral authentication techniques, to safeguard critical diagnostic operations.
Discover the potential of pressure-driven flow control in liquid-phase electron microscopy (LP-EM) for precise sample characterization.
Discover how light-field flow cytometry (LFC) enhances imaging flow cytometry by delivering high-throughput, high-resolution, 3D single-cell analysis. Explore its applications in cell biology and translational research.
Microfluidics papers reviewed: no time to read several years’ worth of microfluidics publications? Don’t worry, we have what you need to know to stay up-to-date in a wide variety of topics linked to microfluidics. Just browse our microfluidic reviews!
There are different ways to make a microfluidic chip and these microfluidic fabrication techniques will lead to different kind of chips made with different materials.
Cell culture consists in growing cells in an artificial environment in order to study their behavior in response to their environment.
A microfluidic chip is a set of micro-channels etched or molded into a material (glass, silicon or polymer such as PDMS.
During the recent years, researchers have shown a greater interest in droplet-based microfluidics. There are many applications in domains as diverse as chemistry or biotechnology.
How pressure-driven flow control works, The advantags / disadvantages of the different technologies depending of your experimental requirements?
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