Creating new opportunities from nanoscale materials
MIT Professor Frances Ross is pioneering new techniques to study materials growth and how structure relates to performance.
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.
Researchers from MIT's Koch Institute will work with teams in the UK and Europe to use nanoparticles to carry multiple drug therapies to treat glioblastoma.
New MIT system of contracting fibers could be a boon for biomedical devices and robotics.
MIT researchers demonstrate a method to make a smaller, safer, and faster lithium-rich ceramic electrolyte.
MIT, Singapore researchers show high-quality photonic device based on amorphous silicon carbide.
Diverse array of companies will counsel, collaborate to boost nanoscale research.
Material developed at MIT can passively capture solar heat for home heating or industrial applications.
Engineers design surfaces that send rain flying away, potentially preventing icing or soaking.
By turning molecular structures into sounds, researchers gain insight into protein structures and create new variations.
Novel materials made with FDA-approved components could deliver large payloads of active ingredients.