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.
This short note will introduce you to the key takeways about microfluidic T junction among other microfluidic junctions.
Fluid mixing at microscale is of importance for many fields of application. This short review summarises the key takeaway aspects of fluid mixing at microscale.
In the past two years, several new microfluidic syringe pump systems have changed the use of syringe pumps in microfluidic experiments.
This review presents a few examples of applications where magnetic flux sources, magnetic particles and microfluidics are combined in order to perform particle sorting and handling.
In microfluidic laminar flows, traditional turbulent mixing between two liquids cannot occur. However, controllable and fast mixing is critical for microfluidic and lab-on-chip devices. So different mixing techniques were developed and are here presented.
There are three main classes of systems to control liquid motion in microfluidic and nanofluidic devices.
One of the great challenges for researchers using microfluidics is miniaturizing analysis processes in very small microchip.
Microfluidic flow controllers are designed to control flows in microfluidic chips.
Despite their sturdiness & simplicity, syringe pumps are often problematic in microfluidics.
The performance of your flow control instruments depends on your experimental conditions.
Liquid flow sensors are a compulsory element of microfluidic systems requiring a control of the sample volume dispensed and/or, obviously, the sample flow rate.
What are the strengths and weaknesses of each type of microfluidic flow control system? Pressure controller, syringe pump...?
Fast medium switch in microfluidic channels is generally a required technique to perform a wide range of biomedical and chemical microfluidic assays, such as the analysis of living cells in vitro, particle washing, etc.
Outside of conventional syringe pumps which generate flow oscillation at low flow rate and long settling time, we can now find syringe pumps like the NE-1002X which is dedicated to microfluidic experiments.
Common syringe pumps have two major drawbacks when it comes to research in MICROFLUIDICS: RESPONSIVENESS and flow OSCILLATION/PULSATILE FLOW. Recently, some syringe pump manufacturers have developed...
High accuracy microfluidic pumps are important for many applications from dynamic cell culture to droplet or nanoparticle generation.
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