Microscopic “walkers” find their way across cell surfaces
Technology could provide a way to deliver probes or drugs to cell structures without outside guidance.
Big step in battling bladder disease
Novel device that stays in the bladder and slowly releases drugs sells to pharmaceutical giant.
Solid nanoparticles can deform like a liquid
Unexpected finding shows tiny particles keep their internal crystal structure while flexing like droplets.
Finding a needle in a haystack
New technique allows scientists to identify populations of rare stem cells in bone marrow.
Faculty highlight: Michael Rubner
Materials scientist Mike Rubner’s collaboration with chemical engineer Robert Cohen yields anti-fog coatings, synthetic "backpacks" for living cells.
New formulation leads to improved liquid battery
Cheaper, longer-lasting materials could enable batteries that make wind and solar energy more competitive.
Magnetic neural control with nanoparticles
Customized arrays of iron oxide nanoparticles are possible based on their differing responses to alternating magnetic fields, MIT researchers report.
Re-inventing the grid
Cambridge-based MIT startup Ambri is building a novel liquid metal battery for grid-level storage to revolutionize energy in the 21st century.
Pioneering bioelectronic interfaces
Flexible polymer probes and magnetic nanoparticles promise breakthroughs for treating paralysis and brain disease.
The power of hidden patterns
Interfaces within materials can be patterned as a means of controlling the properties of composites.
Sorting cells with sound waves
Acoustic device that separates tumor cells from blood cells could help assess cancer’s spread.
Developing new light and energy technologies
Silvija Gradečak customizes nanoscale systems for large-scale impact in light and energy.