What is microfluidic technique?

What is microfluidic technique?

Microfluidics is the science and technology of systems that process or manipulate small amounts of fluidics (10−9 to 10−18L), using channels measuring from tens to hundreds of micrometers. From: Chemical Analysis of Food: Techniques and Applications, 2012.

Who invented microfluidics?

Frederick Stanley Kipping
Frederick Stanley Kipping, the British chemist considered the father of silicon chemistry. The first microfluidic devices were usually made of silicon and glass since the fabrication techniques derived from microelectronics were well known [3].

Where is microfluidics used?

Microfluidic systems are widely used in procedures such as capillary electrophoresis, isoelectric focusing, immunoassays, flow cytometry, sample injection in mass spectrometry, PCR amplification, DNA analysis, separation and manipulation of cells, and cell patterning.

How do microfluidic devices work?

Microfluidics systems work by using a pump and a chip. Different types of pumps precisely move liquid inside the chip with a rate of 1 μL/minute to 10,000 μL/minute. The microfluidic device enables the processing of these particles, for example, trapping and collection of cancer cells from normal cells in the blood.

What is microfluidic PCR?

Microfluidics have been widely used for different DNA amplification processes (PCR, qPCR, RT-PCR). Microfluidic devices allow to accelerate PCR processes, reduce reagent consumption, reach high-throughput assays and integrate pre or post-PCR assays on-chip.

What is the role of microfluidics technology in the society?

Microfluidic technologies can provide the possibility of analyzing the response of multiple cells, tissues, or organs to a specific drug, thus helping the development of novel therapies. Another future direction of such systems is the combination of microfluidic devices and sensing platforms for drug delivery.

Why are microfluidics important?

Microfluidic devices exploit the physical and chemical properties of liquids and gases at a microscale. Microfluidic devices offer several benefits over conventionally sized systems. Microfluidics allow the analysis and use of less volume of samples, chemicals and reagents reducing the global fees of applications.

What is microfluidic platform?

A microfluidic platform allows to perform a set of fluidic unit operations that are enabled by a set of fluidic elements, which are designed for easy combination with a well-defined (and low-cost) fabrication technology.

What is continuous flow microfluidics?

Continuous flow microfluidics is the manipulation of liquid flow through fabricated microchannels without breaking continuity. Fluid flow is established by external sources such as micropumps (e.g., peristaltic or syringe pumps) or internal mechanisms such as electric, magnetic or capillary forces.

What is Microflown Technologies?

Based upon its unique MEMS acoustic particle velocity sensor, Microflown Technologies develops and markets highly innovative products and testing services in the field of sound and vibration. The Microflown sound calibrator is available!

How does microflow CVO work?

Microflow CVO creates volume throughput devices by replicating the same unit cell in prototype models. Your production devices will produce the the same results as your prototypes, simplifying your process qualifications. Got a killer app?

How do I call a REST service from a microflow?

To call the REST service in a microflow, follow these steps: Right-click the module and select Add Microflow. Then, accept the default name Microflow and click OK. From the tool bar, drag a Parameter object to the microflow document.

Continuous flow microfluidics rely on the control of a steady state liquid flow through narrow channels or porous media predominantly by accelerating or hindering fluid flow in capillary elements.