Chemical reactions for the energy transition
Yogesh Surendranath and his team are bringing powerful techniques of electrochemistry to bear on the problem of designing catalysts for sustainable fuels.
Yogesh Surendranath and his team are bringing powerful techniques of electrochemistry to bear on the problem of designing catalysts for sustainable fuels.
Zoe Fisher's undergraduate research journey leads to a role working on the SPARC tokamak.
Research scientist Alex Tinguely oversees an antenna diagnostic used on the U.K.’s record-breaking fusion experiment.
MIT Energy Initiative edX course asks students to rethink how we operate power systems.
New MITEI consortium focuses on speeding the energy transition, engaging with industrial leaders to deploy clean energy advances at scale.
MIT researchers are testing a simplified turbulence theory’s ability to model complex plasma phenomena using a novel machine-learning technique.
MIT PhD student Rachel Bielajew is taking on plasma turbulence, and helping make a better world — through science and community action.
Researchers make the case for a semisolid electrochemical compound as a cost-efficient, grid-scale battery backup for wind and solar power.
A new study finds that investments in R&D on materials and chemistry were key, while economies of scale contributed somewhat less.
By incorporating the scattering of RF waves into fusion simulations, MIT physicists improve heating and current drive predictions for fusion plasmas.
Awards support research to improve the efficiency, scalability, and adoption of clean energy technologies.
In the Hoyt C. Hottel Lecture, Arnold tells the story of her pathbreaking research to engineer better enzymes for critical applications.
MIT-led team finds holistic optimization of electric power and hydrogen supply chain infrastructure is favorable for emission reductions and decreased infrastructure costs.
Probstein’s research had diverse applications in fields including aeronautics, energy, desalination, and soil decontamination.
PhD student Limiao Zhang sees surprising connections between the behavior of cars and bubbles.