Watching electrons using extreme ultraviolet light
MIT researchers have developed a new technique to reveal the uncharted dynamics of electrons in materials.
MIT researchers have developed a new technique to reveal the uncharted dynamics of electrons in materials.
Magnetic particles allow drugs to be released at precise times and in specific areas.
Theorists at MIT and collaborators uncover hidden topological insulator states in bismuth crystals.
New research from the Computer Science and Artificial Intelligence Laboratory uses machine learning to customize clothing designs.
Faculty members recognized for excellence via a diverse array of honors, grants, and prizes over the past quarter.
Noninvasive device could benefit patients with kidney disease, congestive heart failure, or dehydration.
Advanced functional fabrics workshop, held jointly with AFFOA and industrial partner New Balance, develops concepts for biodegradable footwear, active textiles.
When designing actuators involves too many variables for humans to test by hand, this system can step in.
New MIT system of contracting fibers could be a boon for biomedical devices and robotics.
Super-charging a treatment for leukemia also makes it effective on solid tumors.
MIT researchers demonstrate a method to make a smaller, safer, and faster lithium-rich ceramic electrolyte.
Checkelsky, Chung, LeBeau, Lee, Marelli, Slatyer, and Surendranath receive the highest U.S. award for young scientists and engineers.
MIT, Singapore researchers show high-quality photonic device based on amorphous silicon carbide.
Self-assembling materials can form patterns that might be useful in optical devices.
To predict building damage, Kostas Keremidis of the MIT Concrete Sustainability Hub is modeling structures as ensembles of atoms.