Study reveals a reaction at the heart of many renewable energy technologies
New insights into how proton-coupled electron transfers occur at an electrode could help researchers design more efficient fuel cells and electrolyzers.
New insights into how proton-coupled electron transfers occur at an electrode could help researchers design more efficient fuel cells and electrolyzers.
MIT Electric Vehicle Team builds a unique hydrogen fuel cell–powered electric motorcycle.
Keen to accelerate the adoption of nuclear energy, Isabel Naranjo De Candido works to make small, modular reactors efficient throughout their lifecycle.
2023 Global Change Outlook from the MIT Joint Program on the Science and Policy of Global Change quantifies benefits of policies that cap global warming at 1.5 C.
Fusion’s success as a renewable energy depends on the creation of an industry to support it, and academia is vital to that industry’s development.
Fall 2023 Wulff Lecture speaker Sossina Haile ’86, PhD ’92 uses ammonia and a “superprotonic” material for efficient and eco-friendly energy generation.
A recent forum was the first in a series planned at MIT this year, part of an initiative meant to encourage the open exchange of ideas.
At the 2023 Clean Energy Education and Empowerment symposium, participants emphasize working together to achieve net zero emissions by 2050.
Senior Joshua Kuffour has set a goal of taking classes in as many departments as he can before he graduates. “It's taught me about valuing different ways of thinking,” he says.
The MIT Energy Initiative’s Annual Research Conference highlights strategies for implementing large-scale reductions in the world’s greenhouse gas emissions.
The approach directly converts the greenhouse gas into formate, a solid fuel that can be stored indefinitely and could be used to heat homes or power industries.
At MIT, the head of the International Atomic Energy Agency addresses the world’s urgent energy and environmental challenges.
Professor Haruko Wainwright describes a new effort to communicate information about managing and disposing of spent fuel from nuclear reactors.
Conventional systems for producing hydrogen depend on fossil fuels, but the new system uses only solar energy.
MIT PhD student Alexander O’Brien is working to deliver the next generation of fusion devices through research on additive manufacturing of metal-ceramic composites.