Researchers map tiny twists in “magic-angle” graphene
Results could help designers engineer high-temperature superconductors and quantum computing devices.
Results could help designers engineer high-temperature superconductors and quantum computing devices.
Coal could someday be used to make a variety of useful devices, researchers suggest.
Comfortable, form-fitting garments could be used to remotely track patients’ health.
Materials scientist explores why some household cleaners could harm the protective coating on a smartphone screen.
CSAIL's SprayableTech system lets users create large-scale interactive surfaces with sensors and displays using airbrushed inks.
Technique may enable speedy, on-demand design of softer, safer neural devices.
In place of flat “breadboards,” 3D-printed CurveBoards enable easier testing of circuit design on electronics products.
Tiny, battery-free ID chip can authenticate nearly any product to help combat losses to counterfeiting.
Next-generation devices made with new “peel and stack” method may include electronic chips worn on the skin.
MIT researchers grow perfectly shaped germanium tunnels on silicon oxide with controllable length.
Fikile Brushett and his team are designing electrochemical technology to secure the planet’s energy future.
Student committee puts together research showcase while balancing coursework, qualifying exams, and extracurriculars.
A new method determines whether circuits are accurately executing complex operations that classical computers can’t tackle.
Newly synthesized compound of iron and tin atoms in 1-to-1 ratio displays unique behavior.
The Institute's largest academic department reorganizes with new leadership as part of the formation of the MIT Schwarzman College of Computing.