The ingenious device cost just $2 to make, yet works almost as well as its expensive and cumbersome lab counterparts. A simple pressure pump, made from balloons and nylon stockings, means more people ...

Biomedical engineering researchers have developed inexpensive paper pumps that use capillary action to power portable microfluidic devices, opening the door to a range of biomedical tools. Biomedical ...

image: To make microfluidic pumps more accessible to the scientific community, SUTD researchers developed a highly-customisable, 3D-printed peristaltic pump kit, where users from around the world can ...

DUBLIN--(BUSINESS WIRE)--The "Pumps for Microfluidic Devices Patent Landscape" report has been added to Research and Markets' offering. The global micropump market should reach $5.28 billion by 2027, ...

Image from Modular Medical on LinkedIn]Modular Medical (Nasdaq:MODD) announced that it continues to progress toward CE mark ...

(Nanowerk Spotlight) The control of fluids at microscopic scales is fundamental to numerous technologies, from medical diagnostics to water purification. Traditionally, moving small volumes of liquid ...

Micromotors could someday zip through wastewater picking up pollutants or race through the bloodstream delivering drugs. Researchers have developed a number of strategies, such as using chemical fuels ...

A simple pressure pump, made from balloons and nylon stockings, means more people in more places will be able to test water contaminants and blood samples. The ingenious device unveiled in the ...

(Nanowerk News) Biomedical engineering researchers from North Carolina State University and the University of North Carolina at Chapel Hill have developed inexpensive paper pumps that use capillary ...