Is there enough land on Earth to fight climate change and feed the world?
Study shows how smart policies could address competing land-use needs.
Study shows how smart policies could address competing land-use needs.
The new panels are part of MIT’s comprehensive campus climate commitments.
Projects in Texas and North Dakota support clean energy transition as MIT moves closer to 2026 net-zero goal.
The startup Alsym Energy, co-founded by Professor Kripa Varanasi, is hoping its batteries can link renewables with the industrial sector and beyond.
Progress on the energy transition depends on collective action benefiting all stakeholders, agreed participants in MITEI’s annual research conference.
A new study on techno-economic outlooks for zero-emission heavy-duty trucking underscores the need for cross-sector collaboration.
Phoenix Tailings, co-founded by MIT alumni, is creating domestic supply chains for rare earth metals, key to the clean energy transition.
Extraction of nickel, an essential component of clean energy technologies, needs stronger policies to protect local environments and communities, MIT researchers say.
Experts in energy systems modeling and fusion technology explore the future role of fusion at various costs and carbon constraints.
Because it doesn’t need expensive energy storage for times without sunshine, the technology could provide communities with drinking water at low costs.
After an illustrious career at Idaho National Laboratory spanning three decades, Curtis Smith is now sharing his expertise in risk analysis and management with future generations of engineers at MIT.
Anthropologists Manduhai Buyandelger and Lauren Bonilla discuss the humanistic perspective they bring to a project that is yielding promising results.
Today’s regulations for nuclear reactors are unprepared for how the field is evolving. PhD student Liam Hines wants to ensure that policy keeps up with the technology.
A new family of integrated rock salt-polyanion cathodes opens door to low-cost, high-energy storage.
The first comprehensive model of rotor aerodynamics could improve the way turbine blades and wind farms are designed and how wind turbines are controlled.