MIT engineers develop a magnetic transistor for more energy-efficient electronics
A new device concept opens the door to compact, high-performance transistors with built-in memory.
Decoding the sounds of battery formation and degradation
New findings could provide a way to monitor batteries for sounds that could guide manufacturing, indicate remaining usable life, or flag potential safety issues.
New self-assembling material could be the key to recyclable EV batteries
MIT researchers designed an electrolyte that can break apart at the end of a battery’s life, allowing for easier recycling of components.
New method could monitor corrosion and cracking in a nuclear reactor
By directly imaging material failure in 3D, this real-time technique could help scientists improve reactor safety and longevity.
New laser “comb” can enable rapid identification of chemicals with extreme precision
The ultrabroadband infrared frequency comb could be used for chemical detection in portable spectrometers or high-resolution remote sensors.
MIT gears up to transform manufacturing
The Initiative for New Manufacturing is convening experts across the Institute to drive a transformation of production across the U.S. and the world.
Would you like that coffee with iron?
New microparticles containing iron or iodine could be used to fortify food and beverages, to help fight malnutrition.
Ultrasmall optical devices rewrite the rules of light manipulation
Nanophotonic devices developed at MIT are compact, efficient, reprogrammable, adaptive, and able to dynamically respond to external inputs.
Creeping crystals: Scientists observe “salt creep” at the single-crystal scale
Device Research Lab study uncovers mechanisms behind a phenomenon that can impact civil engineering, desalination, coatings, membrane design, art conservation, and more.
Implantable device could save diabetes patients from dangerously low blood sugar
The new implant carries a reservoir of glucagon that can be stored under the skin and deployed during an emergency — with no injections needed.
New 3D chips could make electronics faster and more energy-efficient
The low-cost, scalable technology can seamlessly integrate high-speed gallium nitride transistors onto a standard silicon chip.
Closing in on superconducting semiconductors
Plasma Science and Fusion Center researchers created a superconducting circuit that could one day replace semiconductor components in quantum and high-performance computing systems.
Professor Emeritus Hank Smith honored for pioneering work in nanofabrication
Longtime MIT electrical engineer receives SPIE Frits Zernike Award for Microlithography in recognition of outstanding accomplishments in microlithographic technology.
Startup’s biosensor makes drug development and manufacturing cheaper
Protein sensor developed by alumna-founded Advanced Silicon Group can be used for research and quality control in biomanufacturing.
Have a damaged painting? Restore it in just hours with an AI-generated “mask”
A new method can physically restore original paintings using digitally constructed films, which can be removed if desired.