Shining a light on oil fields to make them more sustainable
Amplified Industries, founded by Sebastien Mannai SM ’14, PhD ’18, helps oil field operators eliminate spills and stop methane leaks.
Amplified Industries, founded by Sebastien Mannai SM ’14, PhD ’18, helps oil field operators eliminate spills and stop methane leaks.
Professor of applied economics Catherine Wolfram balances global energy demands and the pressing need for decarbonization.
A catalyst tethered by DNA boosts the efficiency of the electrochemical conversion of CO2 to CO, a building block for many chemical compounds.
An analysis of the 2011 nuclear accident reveals a need for more preparation, training, and protocols for responding to low-probability accidents.
MIT researchers show that using the right metals could alleviate the corrosion problem in these promising new reactor designs.
While working to nurture scientific talent in his native Nigeria, Assistant Professor Ericmoore Jossou is setting his sights on using materials science and computation to design robust nuclear components.
At the 2024 MIT Energy Conference, participants grappled with the key challenges and trends shaping our fight to prevent the worst effects of climate change.
An online model enables users to calculate the least-cost strategy for a specific regional grid under various assumptions; outcomes vary widely from region to region.
The event featured updates from faculty and staff from across MIT, as well as a panel on communicating climate in the media.
Detailed study of magnets built by MIT and Commonwealth Fusion Systems confirms they meet requirements for an economic, compact fusion power plant.
With batteries based on iron and air, Form Energy leverages MIT research to incorporate renewables into the grid.
Can carbon trading systems reduce global emissions, or are they little more than greenwashing? Clear, enforceable standards may make the difference.
MIT LIDS awarded funding from the Appalachian Regional Commission as part of a multi-state collaborative project to model and test new smart grid technologies for use in rural areas.
Applying a small voltage to a catalyst can increase the rates of reactions used in petrochemical processing, pharmaceutical manufacture, and many other processes.