We made a bold choice to fit both our mission, which is to boost science using microfluidics, as well as our culture, which is to do things our way and to be part of the research community.
We decided to promote and sell our instruments, not through common, boring advertisement, but instead by providing you with:
And then we hope that while surfing our website, some of you will discover our microfluidic brand and fall in love with Elveflow.
Microfluidic sequential production and trapping of droplets for in situ optical analysis.
A protocol for high monodispersity and high encapsulation efficiency double emulsion production for encapsulation using microfluidics
Droplet-based microfluidics and single spore encapsulation offer the key for a breakthrough in antifungal screening and fungicide discovery.
Generate picoliter-sized microdroplets and perform single cell encapsulation with this detailled microfluidic protocol.
Nanobubble generation performed by microfluidics is described in an application note. Nanobubbles are very singular by their generation and properties.
Everything you need to know about microbubble generation, from theory to the microfluidics experimental steps.
This application note will show you how highly monodispersed droplets can be easily generated to encapsulate single spore of fungus using a microfluidic droplet generation system.
Highly monodispersed alginate beads can be easily generated with a microfluidic droplet generation system.
Two-phase flow microfluidics allow to perfom different laboratory functions on one microfluidic Lab-on-Chip (LoC) platform. An example of such an application is the controlled production of droplets on chip.
The generation and manipulation of droplets through microfluidics offer tremendous advantages: better control over small volumes of fluid, enhanced mixing, high throughput experiments.
This application note describes how to generate controlled size millifluidic droplets in a capillary by regulating the pressure rate and/or by regulating the flow rate.
Droplets generation has a large scale of applications, such as emulsion production, single cell analysis, drug delivery or nanoparticles synthesis. Droplets can also be used as micro bioreactors for chemical or biochemical reactions.
Precise and effective control of droplet generation is critical for applications of droplet microfluidics ranging from materials synthesis to lab-on-a-chip systems.
Active droplet generation in microfluidics is of high interest for a wide range of applications. It provides an additional degree of freedom in manipulating both the size and the formation frequency of micro-droplets. This additional control is extremely desirable for complex operations which rely on the accurate control of both parameters.
Microfluidic droplet in a chip also called droplet generation by microfluidics presents many application & advantages. The droplet generation pack has been designed to fit most common droplet generation needs of researchers.
Droplet microfluidics and single cell encapsulation offer the key for a discovery engine in antibody therapy.
Accidental spillage of petroleum-based products and contaminants can cause severe environmental hazards to the ecosystem if not remediated effectively. Foam, a dispersion of gas in thin liquid films (named lamellae), has been identified as a remedy for these defects due to its unique properties.
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