Harry Tuller wins Egleston Medal for his electroceramics work
Pioneering materials science and engineering research enables better catalytic converters, miniature explosives detectors, and thin-film microbalances.
Pioneering materials science and engineering research enables better catalytic converters, miniature explosives detectors, and thin-film microbalances.
Material may replace many metals as lightweight, flexible heat dissipators in cars, refrigerators, and electronics.
Tiny robots powered by magnetic fields could help drug-delivery nanoparticles reach their targets.
More effective surgery could boost survival rates for ovarian cancer.
Twisted fibers coated with living cells could assist healing of injured muscles and tendons.
Engineered surface treatment developed at MIT can reduce waste and improve efficiency in many processes.
Novel batteries are the first to use water-splitting technology at their core.
Video game developer NCSOFT joins with MIT.nano to apply the language of gaming to technology research and education.
MIT.nano etches more than 270,000 names from the MIT community on a 6-inch wafer.
Annual student-led conference connects MIT researchers and industry partners.
Near-infrared technology pinpoints fluorescent probes deep within living tissue; may be used to detect cancer earlier.
Coating graphene with wax makes for a less contaminated surface during device manufacturing.
Growing material directly onto substrates and recycling chip patterns should enable faster, simpler manufacturing.
MIT-led team uses nanoparticles to deliver genes into plant chloroplasts.
New results show how varying the recipe could bring these materials closer to commercialization.