SMART researchers enable early-stage detection of microbial contamination in cell therapy
Rapid and accurate analytical test method enhances the production of high-quality cell therapy products.
Rapid and accurate analytical test method enhances the production of high-quality cell therapy products.
Study shows what happens when crystalline grains in metals reform at nanometer scales, improving metal properties.
Searchable tool reveals more than 90,000 known materials with electronic properties that remain unperturbed in the face of disruption.
Professor Polina Anikeeva’s innovation in the treatment of neurological disorders highlights the interdisciplinary nature of her field.
Engineers have developed a glucose power source that could fuel miniature implants and sensors.
New technology could help generate hydrogen and chemical industry ingredients.
Through the year-long MCSC Climate and Sustainability Scholars Program, students have the opportunity to lead research projects.
MIT’s LEAP at MIT.nano is the first in a network to advance manufacturing for the state.
Mechanical engineers put an Oreo’s cream filling through a battery of tests to understand what happens when two wafers are twisted apart.
Perovskite materials would be superior to silicon in PV cells, but manufacturing such cells at scale is a huge hurdle. Machine learning can help.
The design could someday enable a fully decarbonized power grid, researchers say.
An early interest in archaeology led senior Sophia Mittman to explore many facets of materials science, from restoring artwork to making mining more sustainable.
The Institute also ranks second in two subject areas.
An efficient machine-learning method uses chemical knowledge to create a learnable grammar with production rules to build synthesizable monomers and polymers.
Graduate engineering, economics, and various science programs are No. 1 in the nation; MIT Sloan is No. 5.