At Climate Grand Challenges showcase event, an exploration of how to accelerate breakthrough solutions
Special Presidential Envoy for Climate John Kerry calls the initiative “classic MIT.”
Special Presidential Envoy for Climate John Kerry calls the initiative “classic MIT.”
The Center for Electrification and Decarbonization of Industry unites MIT climate researchers to create scalable clean energy solutions under one roof.
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 portfolio of multiyear projects focuses on delivering breakthrough solutions.
Power flowing both ways across the border offers a pathway to clean electricity in 2050.
After four decades at the Plasma Science and Fusion Center, Deputy Director Martin Greenwald embodies a brief history of fusion at MIT.
From nuclear proliferation to climate change, Richard K. Lester taps research talent to map a path toward a sustainable planet.
Annual student-led conference looks at prospects for decarbonizing some of the most difficult industries, including aviation and cement production.
Yogesh Surendranath and his team are bringing powerful techniques of electrochemistry to bear on the problem of designing catalysts for sustainable fuels.
MIT AI Hardware Program launches with five inaugural companies to advance AI technologies for the next decade.
Faculty leaders detail promising technologies, materials, and methods that could help unlock a low-carbon future in sectors where emissions are hardest to cut.
A new membrane material could make purification of gases significantly more efficient, potentially helping to reduce carbon emissions.
Zoe Fisher's undergraduate research journey leads to a role working on the SPARC tokamak.