Catalyzing greener products
Yuriy Román knew that to change the future of catalysis he’d have to cross the boundary between chemical engineering and materials science.
Yuriy Román knew that to change the future of catalysis he’d have to cross the boundary between chemical engineering and materials science.
In Science, economists evaluate government’s proposed emissions policy for power plants.
Silvija Gradečak’s nanoscale work creates big-scale results that could transform energy production, storage, and lighting.
Model provides a more accurate tool for city planning, emergency evacuations, tracking disease spread.
Startup’s on-site fabrication process makes taller wind turbines more feasible.
MIT study finds unprecedented production of metals needed to meet some solar energy goals.
DropWise manufactures hydrophobic coating for power plants that can significantly decrease CO2 emissions.
Company to invest $25 million over the next five years to support faculty and student energy research.
Metallurgist pushes grain boundaries: Nanostructured metal alloys deliver tougher materials, lower costs, and safer outcomes.
WiTricity brings wireless power to electrical cars, consumer electronics, and other applications that currently require clumsy cables or chargers.
Startup’s power-conserving chip may increase smartphone battery life, save energy in cell towers.
MIT postdoctoral associate Mostafa Youssef and graduate student Aravind Krishnamoorthy tackle different aspects of the problem at atomic scale.