Putting the pieces together
Summer interns are learning research skills while helping to make progress in materials, drug delivery, and energy in MIT labs.
Summer interns are learning research skills while helping to make progress in materials, drug delivery, and energy in MIT labs.
Assistant Professor Elsa Olivetti combines cost and environmental data to identify high-impact areas for reducing pollution and greenhouse gases.
Professor W. Craig Carter leads a collaborative effort to build a materials science curriculum online with integrated programming and active student engagement.
MIT spinout signs deal to commercialize microchips that release therapeutics inside the body.
Reinventing how these batteries are made also improves their performance and recyclability.
Technique enables production of pure, uniform coatings of metals or polymers, even on contoured surfaces.
Recent PhD recipient Rachel Zucker models phenomena collectively known as "dewetting" in microscale to nanoscale thin films.
Modeling mechanical stress in solid-state lithium batteries yields insights into battery microstructure for MIT postdoc Giovanna Bucci.
AFFOA event to spark conversations on breakthroughs in fiber materials and textile manufacturing processes.
Materials science professor develops algorithms to solve problems across disciplines, strengthens online teaching techniques, and contributes to scientific art.
Simulations and experiments aim to improve on spiders in creating strong, resilient fibers.
Microfluidic cell-squeezing device opens new possibilities for cell-based vaccines.
Researchers find a way of tuning light waves by pairing two exotic 2-D materials.