How “2D” materials expand
A new technique that accurately measures how atom-thin materials expand when heated could help engineers develop faster, more powerful electronic devices.
A new technique that accurately measures how atom-thin materials expand when heated could help engineers develop faster, more powerful electronic devices.
For some MIT Leaders for Global Operations graduates, a research passion becomes a full-time career.
Professor Emeritus Donald Sadoway, renowned electrochemist and influential educator, reflects on 45 years at MIT.
A new study links very dry and very humid indoor environments with worse Covid-19 outcomes.
J-WAFS Fellows discuss their inspiration for pursuing challenges in water and food systems.
MIT Energy Initiative Annual Research Conference highlights both opportunities and obstacles in the race to a net-zero future.
Metal stents or staples that disintegrate on demand inside the body could eliminate some surgical and endoscopic procedures.
Pacemakers and other medical devices, as well as long-distance drones and remote sensors, could require fewer battery replacements with new approach.
A new study suggests mobile data collected while traveling over bridges could help evaluate their integrity.
Vishnu Jayaprakash SM '19, PhD '22 won for the AgZen-Cloak, an invention that makes pesticides stick to crops, minimizing pollution and water waste.
Fourteen faculty members have been granted tenure in five departments across the MIT School of Engineering.
MIT Morningside Academy for Design’s inaugural fellows chart a new course.
Senior Susan Su finds inspiration in both makerspaces and performance spaces.
With only a little information, researchers can predict the circumstances under which an ecosystem will be stable or unstable.
Graduate students create on-campus assembly factory for fiber extrusion devices.