Faculty highlight: Robert Macfarlane
MIT chemist constructs nanoparticle-based crystals by programming interactions of synthetic polymers and biopolymers at the molecular level.
A better way to assay
New design of large-scale microparticle arrays can make materials science and bioengineering applications more scalable, precise, and versatile.
New theory overcomes a longstanding polymer problem
Technique for calculating elasticity could aid design of new materials.
The promise of fluorescent polymer gels
Color-changing materials could be used to detect structural failure in energy-related equipment.
Wireless, wearable toxic-gas detector
Inexpensive sensors could be worn by soldiers to detect hazardous chemical agents.
Chemists create adaptable metallic-cage gels
New materials could be tuned for applications including drug delivery and water filtration.
Beauty business based on MIT bioengineering
Living Proof, a hair care corporation based on research emerging from the Langer Lab at MIT, has won 80 awards and counting.
Solving mysteries of conductivity in polymers
Materials seen as promising for optoelectronics and thermoelectric devices finally yield their secrets.
Materials Processing Center marks 35 years
Service to faculty, collaboration with industry are hallmarks of campus-based Materials Processing Center at MIT.
New fibers can deliver many simultaneous stimuli
Implanted into the brain or spinal column, they can transmit drugs, light, and electrical signals.
Commercializing a new generation of polymer coatings
GVD’s vapor-deposited polymer coatings improve performance efficiency in critical applications across industries.
Faculty highlight: Michael Rubner
Materials scientist Mike Rubner’s collaboration with chemical engineer Robert Cohen yields anti-fog coatings, synthetic "backpacks" for living cells.
Pioneering bioelectronic interfaces
Flexible polymer probes and magnetic nanoparticles promise breakthroughs for treating paralysis and brain disease.
Tiny particles could help verify goods
Chemical engineers hope smartphone-readable microparticles could crack down on counterfeiting.