Widening metal tolerance for hydrogels
MIT graduate student Seth Cazzell shows controlling pH enables reversible hydrogel formation in wider range of metal concentrations.
MIT graduate student Seth Cazzell shows controlling pH enables reversible hydrogel formation in wider range of metal concentrations.
“Micromechanics informed alloy design: Overcoming scale-transition challenges” focuses on bridging scale gaps.
Newly synthesized compound of iron and tin atoms in 1-to-1 ratio displays unique behavior.
MIT researchers use a new machine learning technique to rapidly evaluate new transition metal compounds to identify those that can perform specialized functions.
MIT’s Senthil Todadri and Xiao-Gang Wen will study highly entangled quantum matter in a collaboration supported by the Simons Foundation.
Microscopy technique could help researchers design safer reactor vessels or hydrogen storage tanks.
MIT researchers use resonant X-ray scattering measurements to reveal unexpected “Wigner glass” in desirable superconducting material.
At the Materials Day Symposium, researchers focus on tools that probe atomic structures in action to yield better designs for metals, solar cells, and polymers.
Metal cluster in enzyme that breaks down carbon dioxide can switch between two different shapes.
Researchers develop an electrically-driven process to separate commercially important metals from sulfide minerals in one step without harmful byproducts.
MIT researchers create a high-temperature device that produces electricity from industrial waste heat.
Students create bronze medallions of the MIT seal for new graduates of the Department of Materials Science and Engineering.
MIT researchers team up with leaders from the metals and minerals industry to envision a more sustainable future.
Novel laminated nanostructure gives steel bone-like resistance to fracturing under repeated stress.
Itamar Kimchi studies the physics underlying unusual behavior of electrons in compounds such as transition metal oxides.