Researchers design one of the strongest, lightest materials known
Porous, 3-D forms of graphene developed at MIT can be 10 times as strong as steel but much lighter.
Porous, 3-D forms of graphene developed at MIT can be 10 times as strong as steel but much lighter.
New technique predicts frequency of heavy precipitation with global warming.
Innovation@ONE business pitch competition features startups and ideas out of Course 1.
Calculation developed by MIT Concrete Sustainability Hub shows that when building in areas prone to natural disasters, it pays to make informed decisions.
Fifth annual MIT Water Summit brings together interdisciplinary panelists to give multiple perspectives on major issues surrounding the water sector.
Ali Jadbabaie seeks to optimize large-scale systems, from social networks to teams of people or devices.
MIT alumni and the MIT-Chile Program are bringing unique learning opportunities to Chilean high school students in a partnership with two major Santiago universities.
Three proposals in MIT Solve's “Learn” pillar advance to finals.
System predicts how MIT’s tallest structure responds to vibrations, may help monitor stress over time.
MIT faculty discuss how a multidisciplinary, multi-university collaboration helps us understand the mechanics of social and political change.
Grad student Billy Ndengeyingoma helps improve affordable-housing design in Africa.
New analysis finds way to safely conduct heat from graphene to biological tissues.
Study reveals closely related microbes can diversify rapidly via horizontal gene transfer.