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.
Students research pathways for MIT to reach decarbonization goals
A class this semester challenged students to evaluate technologies to help MIT decarbonize — with implications for organizations across the globe.
Reducing carbon emissions from long-haul trucks
MIT researchers show a promising plan for using clean-burning hydrogen in place of the diesel fuel now used in most freight-transport trucks.
Getting to systemic sustainability
At the 2024 Earth Day Colloquium, World Resource Institute President and CEO Ani Dasgupta says systemic changes in a handful of countries will be critical to meeting global emissions goals.
Turning up the heat on next-generation semiconductors
Research sheds light on the properties of novel materials that could be used in electronics operating in extremely hot environments.
H2 underground
At the 2024 MIT Energy Iniative Spring Symposium, experts weighed whether hydrogen stored in the earth might be a practical energy source of the future.
William Green named director of MIT Energy Initiative
In his new role, the professor of chemical engineering plans to speed up the consensus process among academics, business leaders, and policymakers for a successful energy transition.
Seizing solar’s bright future
With laser-based precision tools for measuring and tuning materials, MIT spinout Optigon aims to rev up the energy transition.