Smaller, faster, better: Nanoscale batteries may power future technology
Novel batteries are the first to use water-splitting technology at their core.
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.
Microscopy technique could help researchers design safer reactor vessels or hydrogen storage tanks.
Device made from flexible, inexpensive materials could power large-area electronics, wearables, medical devices, and more.
William Oliver says a lack of available quantum scientists and engineers may be an inhibitor of the technology’s growth.
Theoretical analysis distinguishes observed “holes” from the huge list of hypothetically possible ones.
Computer program can translate a free-form 2-D drawing into a DNA structure.