Microfluidics refers to the behaviour, precise control, and manipulation of fluids that are geometrically constrained to a small scale (typically sub-millimeter) at which capillary penetration governs mass transport. It is a multidisciplinary field that involves engineering, physics, chemistry, biochemistry, nanotechnology, and biotechnology.It has practical applications in the design of.
Microfluidics. Microfluidics is the interdisciplinary study of the behaviour, manipulation and application of fluid at the microscale. It underpins the concept of the lab-on-a-chip, where multiple key components and operations are integrated onto one small platform. This is rapidly becoming an important underlying technology with applications across a diverse range of fields including medicine.
Overview. Our Microfluidics and Microengineering Research Group performs both academic research into novel microengineered devices and techniques, and pursues business-facing projects involving consultancy and turnkey microfluidics-enabled systems for government agencies and industry.Precision high resolution film and chrome on glass photo mask service. Reverse engineering service.Educational Microfluidic Systems; Perfect solutions to explore core microfluidic principles and technologies. The modular starter system offers hands-on understanding of microfluidics in a convenient, cost effective and very flexible way. The aim is to introduce and emphasize microfluidic concepts such as laminar flow, diffusion, and allow practical learning of methods for droplet generation.
RAB-Microfluidics is strategically located at the heart of this citadel of technological expertise, being the pioneering developer of microfluidic technology for oil applications in Europe. We have unparalleled world class expertise in development of microfluidic technology at out behest working with award winning product development partners in the United Kingdom. Our advisory team has over.Read More
Microfluidics is often conducted in a steady-state mode, where reagents are introduced into the device and a continuous stream of products are formed, for example, the reaction of H2O and D2O and the establishment of steady-state conditions allows for mapping a large device (3). An alternative is the use of immiscible phases to form small self-contained reactors, where droplets contain.Read More
Microfluidics can be incorporated into a lab-on-a-chip which is used as an assay or diagnostic test and replaces its large, costly full-size lab counterpart. This has three basic components, a sample, a process and a validation method. For example, you might input a fluid such as saliva or blood to be analyzed. Next, you’ll have to process this blood mechanically or chemically. This may mean.Read More
The development of microfluidics has just begun! FLUIGENT. Fluigent was the first company to introduce pressure pumps to the microfluidic research market, as opposed to conventional syringe pumps. Today, Fluigent is the only company to introduce a full pressure and flow-rate control solution designed for coupled multi-channel configurations. We have delivered thousands of systems to hundreds.Read More
Microfluidics and Microengineering facilities. Clean room and laboratories. The Microfluidics and Microengineering Group has dedicated clean room and laboratory facilities located in the main building on the College Lane campus. The facilities include a 35m2 class 1000 (ISO 6) clean room and 100m2 of microfluidics laboratory for precision assembly and testing of microstructured devices and an.Read More
MicrofluidX leverages the power of microfluidics thanks to its highly parallelisable microfluidic bioprocessing system that: Combines multiple cell culture capabilities (seeding, expansion, differentiation, transduction, washing, sorting, concentration, sampling, harvest) in one closed system. Is fully scalable from thousands to several hundred million cells without the need to re-engineer.Read More
Microfluidics, as Quake’s field is called, is a promising new branch of biotechnology. The idea is that once you master fluids at the microscale, you can automate key experiments for genomics and pharmaceutical development, perform instant diagnostic tests, even build implantable drug-delivery devices-all on mass-produced chips. It’s a vision so compelling that many industry observers.Read More
Microfluidics demonstrates a completely new perspective and an excellent practical way to manipulate cells for solving various needs in biology and medicine. This review introduces and comments on.Read More
Microfluidics most typically comprises low-pressure applications. Low pressure fitting types include flanged and flangeless. With flanged fittings the flow path tubing is flared out at the end, and the supporting fitting presses the tubing flare against the bottom of the receiving port. Although flanged fittings are still used, there has been a migration away from this fitting type toward.Read More
Microfluidics is the science of manipulating and controlling fluids, usually in the range of microliters (10-6) to picoliters (10-12), in networks of channels with dimensions from tens to hundreds of micrometers. This discipline takes its origins in the early 1990’s and has grown exponentially. It is viewed as an essential tool for life science research or in a larger way in biotechnologies.Read More