Engineers develop an efficient process to make fuel from carbon dioxide
The approach directly converts the greenhouse gas into formate, a solid fuel that can be stored indefinitely and could be used to heat homes or power industries.
The approach directly converts the greenhouse gas into formate, a solid fuel that can be stored indefinitely and could be used to heat homes or power industries.
Award recognizes scientists of Turkish origin younger than 50 who have made outstanding contributions to their fields.
Professor Emeritus Donald Sadoway, renowned electrochemist and influential educator, reflects on 45 years at MIT.
Pacemakers and other medical devices, as well as long-distance drones and remote sensors, could require fewer battery replacements with new approach.
Professor Betar Gallant approaches electrochemistry with a strong inclination, inherited from her family, to work things out independently.
MIT researchers find that changing the pH of a system solves a decades-old problem.
New technology could help generate hydrogen and chemical industry ingredients.
Professor Bilge Yildiz finds patterns in the behavior of ions across applications.
MIT researchers demonstrate a new electrochemical method to study thermodynamic processes in an ultra-high temperature molten oxide.
Winning teams will use grants to advance research in areas including fuel cells, solar-powered desalination, and impacts of electric vehicle charging on the power grid.
New device could provide electrical power source from walking and other ambient motions.
An exotic state of matter — a “random solid solution” — affects how ions move through battery material.
Electrochemical approach has potential to efficiently turn low-grade heat to electricity.
New MIT analysis probes charge transfer in porous battery electrodes for the first time.
Highly active catalysts could be key to improved energy storage in fuel cells and advanced batteries.