microfluidics

MIT researchers developed a fabrication process to produce self-heating microfluidic devices in one step using a multi-material 3D printer. Pictured is an example of one of the devices. Credits:Image: Courtesy of the researchers
3D printed self-heating microfluidic devices could someday be used to rapidly create cheap, yet accurate, tools to detect a host of diseases
MIT researchers developed a fabrication process to produce self-heating microfluidic devices in one step using
Watching viral infections in real time
via Michigan Technological University Watching viral infections in real time A virus attaches to a
Soon: 3D printing microfluidics directly on the skin for real-time sensing of bodily fluids and functions?
Researchers at the University of Minnesota are the first to 3D print microfluidic channels on
Combining AI and nanoparticle printing for cancer cell analysis will enable low cost diagnostics in developing countries
“Our work has potential applications in single-cell studies, in tumor heterogeneity studies and, perhaps, in
Programmable, injectable cell-sized capsule for pharmacology and targeted therapy with a controlled lifespan
via EPFL Programmable, injectable cell-sized capsule for pharmacology and targeted therapy with a controlled lifespan
Low-power, paper-based long-term method for analyzing sweat for noninvasive medical testing
The evaporation of sweat on paper pads could be used for fluid transport in wearables
A really low-cost field tool to test water contaminants and blood samples

A simple pressure pump, made from balloons and nylon stockings, means more people in more

The ability to diagnose sepsis in minutes

When time matters in hospitals, automated system can detect an early biomarker for the potentially

A microfluidic organ chip model of the human blood-brain barrier for development of brain-targeting therapeutics

Microfluidic Organ Chip model of human blood-brain barrier that recapitulates in vivo barrier functions offers

A set of modular hydrogel components that could be useful in a variety of soft robotic and biomedical applications

A new type of hydrogel material developed by Brown University researchers could soon make assembling

Detecting cancer cells in blood with a new microfluidic device

Researchers at the University of Illinois at Chicago and Queensland University of Technology of Australia,

A 3D printed artificial nose that can smell any sort of odour including noxious substances like natural gas, ammonia or sewage

Gas sensing ‘artificial nose’ created on 3D-printers A new gas detector, developed by researchers at

Mobile 3D micro-machines that adapt their shape and action to changes in the environment

Chemical Engineering Researchers at Pitt Develop Self-Powered Microfluidic Sheet that Wraps, Flaps and Creeps The

Revolutionizing diagnostics and drug delivery with miniature magnetic swimming devices

Scientists have created miniature magnetic swimming devices – which mimic the appearance of sperm cells

Combinations of cancer drugs can now be quickly and cheaply tested for personalized medicine

Combinations of cancer drugs can be quickly and cheaply tested on tumour cells using a