Droplet based microfluidics
It is no secret that in microfluidics as in other fields, sometimes the smallest things can make the biggest difference. We all have better things to do than waste our precious time dealing with leakage, dead volume and bubbles problems.
Having microfluidic connections that are reliable and easy to operate is a first step towards success. Various microfluidic connection types are used depending on the device used, or chip type.
The following table summarizes the connection and fittings types commonly used in microfluidic setups:
Microfluidic connectors can be used with various tubing sizes and types, employing the corresponding connector. Choosing the right connector for a particular application, can easily turn into a waste of time, but once again, we’ve done the job so that you can focus on your science and reach next step faster!
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Do you want tips on how to best set up your microfluidic experiment? Do you need inspiration or a different angle to take on your specific problem? Well, we probably have an application note just for you, feel free to check them out!
Free-flow electrophoresis (FFE) is a technique that enables the continuous separation of analytes as they flow through a planar channel.
The profile of laminar flow through a small straight pipe may be approximated by small concentric cylinders towards the direction of the flow.
Finding the right technique for particle encapsulation using micro and nanoparticles is key for a successful particle encapsulation protocol.
This review demonstrates the development of microfluidic techniques and their capability in performing various types of chemical synthesis.
A guide to calculate the flow resistance of your microfluidic circuit.
One of the key criteria to choose your microfluidic device material is its chemical resistance. This review will help you choose one depending on your application.
Microfluidics: definitions. This short review aims to cover the main microfluidics definitions from the simple word by word science to the advantages & applications
Introduction to thermoelectric sensor | Microfluidics immunosensors offer multiple advantages over the conventional immunoassays that include improved reaction rate, reduced time for incubation of the reactants, and decreased reagents and sample consumption. Moreover, miniaturization and integration of the multiple assay components permit automation, precise flow control, increased reproducibility, and the possibility for high-throughput analysis.
PLGA nanoparticles are of great interest for biomedical applications. This review focus on microfluidic synthesis methods of these nanoparticles.
This review focuses on point of care (POC) diagnostic devices for pathogen detection
Acoustic techniques for sorting and separation of micron-sized particles in microfluidic devices
Microfluidics is the science that deals with the flow of liquid inside micrometer-size channels.
Air bubbles are among the most recurring issues in microfluidics. Because of the micrometric dimensions of the tubes and channels
Microrheology is a technique used to measure the rheological properties of a medium, such as viscosity and viscoelasticity. This short review is presenting the different techniques and applications.
Diagnosis is the first step in treating any disease, and paper microfluidic devices can facilitate this crucial step. Most of the time, this necessary task is
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