Tackling the energy revolution, one sector at a time
A new study on techno-economic outlooks for zero-emission heavy-duty trucking underscores the need for cross-sector collaboration.
Startup turns mining waste into critical metals for the U.S.
Phoenix Tailings, co-founded by MIT alumni, is creating domestic supply chains for rare earth metals, key to the clean energy transition.
3 Questions: Can we secure a sustainable supply of nickel?
Extraction of nickel, an essential component of clean energy technologies, needs stronger policies to protect local environments and communities, MIT researchers say.
Study: Fusion energy could play a major role in the global response to climate change
Experts in energy systems modeling and fusion technology explore the future role of fusion at various costs and carbon constraints.
Solar-powered desalination system requires no extra batteries
Because it doesn’t need expensive energy storage for times without sunshine, the technology could provide communities with drinking water at low costs.
Applying risk and reliability analysis across industries
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.
3 Questions: Bridging anthropology and engineering for clean energy in Mongolia
Anthropologists Manduhai Buyandelger and Lauren Bonilla discuss the humanistic perspective they bring to a project that is yielding promising results.
Aligning economic and regulatory frameworks for today’s nuclear reactor technology
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.
Study of disordered rock salts leads to battery breakthrough
A new family of integrated rock salt-polyanion cathodes opens door to low-cost, high-energy storage.
MIT engineers’ new theory could improve the design and operation of wind farms
The first comprehensive model of rotor aerodynamics could improve the way turbine blades and wind farms are designed and how wind turbines are controlled.
More durable metals for fusion power reactors
MIT researchers have found a way to make structural materials last longer under the harsh conditions inside a fusion reactor.
AI method radically speeds predictions of materials’ thermal properties
The approach could help engineers design more efficient energy-conversion systems and faster microelectronic devices, reducing waste heat.
Startup aims to transform the power grid with superconducting transmission lines
VEIR, founded by alumnus Tim Heidel, has developed technology that can move more power over long distances, with the same footprint as traditional lines.
New computer vision method helps speed up screening of electronic materials
The technique characterizes a material’s electronic properties 85 times faster than conventional methods.