Evaluating the impacts of the global energy system
A greener way to make raw materials
State-level adoption saves money and lives
Combining capture and disposal
A new accounting of methane’s role
Towards a safer, more effective sequestration process
Interfacial electrolyte effects on aqueous CO2 reduction: Learning from enzymes to develop inorganic approaches
Leaching characteristics of biomass ash-based binder in neutral and acidic media
Electric-gas infrastructure planning for deep decarbonization of energy systems
The selected projects will address data center expansion, building sector decarbonization, climate-resilient power systems, and more.
MIT study finds that many climate-stabilization plans are based on questionable assumptions about the future cost and deployment of “direct air capture” technology and therefore may not bring about the promised reduction in carbon dioxide in the atmosphere.
Progress on the energy transition depends on collective action benefiting all stakeholders, agreed participants in MITEI’s annual research conference.