Is it topological? A new materials database has the answer
Searchable tool reveals more than 90,000 known materials with electronic properties that remain unperturbed in the face of disruption.
Searchable tool reveals more than 90,000 known materials with electronic properties that remain unperturbed in the face of disruption.
Students and postdocs from MIT's Science Policy Initiative meet with lawmakers on science-engineering-technology Congressional Visit Days 2022.
New understanding of metal electrolysis could help optimize production of metals like lithium and iron.
New technology could help generate hydrogen and chemical industry ingredients.
An art-science collaboration tests the limits of visual technologies.
The design could someday enable a fully decarbonized power grid, researchers say.
A new membrane material could make purification of gases significantly more efficient, potentially helping to reduce carbon emissions.
An MIT team incorporates AI to facilitate the detection of an intriguing materials phenomenon that can lead to electronics without energy dissipation.
Researchers have developed a technique for making quantum computing more resilient to noise, which boosts performance.
A new way to make carbon fiber could turn refinery byproducts into high-value, ultralight structural materials for cars, aircraft, and spacecraft.
Chemical engineers use neural networks to discover the properties of metal-organic frameworks, for catalysis and other applications.
A new machine-learning technique could pinpoint potential power grid failures or cascading traffic bottlenecks in real time.
Discovery shows for the first time that multiferroic properties can exist in a two-dimensional material; could lead to more efficient magnetic memory devices.
Thermal span in a layered compound promises applications in next-generation electrical switches and nonvolatile memory.
The new substance is the result of a feat thought to be impossible: polymerizing a material in two dimensions.