“Electroadhesive” stamp picks up and puts down microscopic structures
New technique could enable assembly of circuit boards and displays with more minute components.
New technique could enable assembly of circuit boards and displays with more minute components.
SMART has developed a new way to study cells, paving the way for a better understanding of how cancers spread and become deadly.
Study of minerals widely used in industrial processes could lead to discovery of new materials for catalysis and filtering.
Ultrathin coating could protect 2D materials from corrosion, enabling their use in optics and electronics.
MIT researchers discover why magnetism in certain materials is different in atomically thin layers and their bulk forms.
Five software and hardware projects will launch the MIT.nano Immersion Lab Gaming Program.
Researchers integrate diamond-based sensing components onto a chip to enable low-cost, high-performance quantum hardware.
Brian Anthony, co-leader of SENSE.nano, discusses sensing for augmented and virtual reality and for advanced manufacturing.
New detection tool could be used to make quantum computers robust against unwanted environmental disturbances.
MIT Professor Frances Ross is pioneering new techniques to study materials growth and how structure relates to performance.
New approach harnesses the same fabrication processes used for silicon chips, offers key advance toward next-generation computers.
Low-cost “piezoelectric” films produce voltage, could be used for flexible electronic components and more.
Magnetic particles allow drugs to be released at precise times and in specific areas.
Shining light through household bleach creates fluorescent quantum defects in carbon nanotubes for quantum computing and biomedical imaging.
Hacking Nanomedicine kicks off a series of events to develop an idea over time.