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.
A new family of integrated rock salt-polyanion cathodes opens door to low-cost, high-energy storage.
These zinc-air batteries, smaller than a grain of sand, could help miniscule robots sense and respond to their environment.
The grants fund studies of clean hydrogen production, fetal health-sensing fabric, basalt architecture, and shark-based ocean monitoring.
With batteries based on iron and air, Form Energy leverages MIT research to incorporate renewables into the grid.
MIT chemists developed a battery cathode based on organic materials, which could reduce the EV industry’s reliance on scarce metals.
MIT professor combines nanoscience and viruses to develop solutions in energy, environment, and medicine.
In a first, researchers have observed how lithium ions flow through a battery interface, which could help engineers optimize the material’s design.
The findings, based on a single electrochemical process, could help cut emissions from the hardest-to-decarbonize industries, such as steel and cement.
MIT graduate students in technology and policy aim to make an impact in resource-constrained communities through energy research and real-world application.
Antora Energy, co-founded by David Bierman SM ’14, PhD ’17, is commercializing a thermal battery that lets manufacturers use renewable energy around the clock.
Through coursework, intercollegiate collaboration, and a site visit, MIT students fuse engineering and anthropology to propose innovative energy solutions.
A modeling framework developed at MIT can help speed the development of flow batteries for large-scale, long-duration electricity storage on the future grid.
Principal Research Scientist Audun Botterud tackles a range of cross-cutting problems — from energy market interactions to designing batteries — to get closer to a decarbonized power grid.
Careful planning of charging station placement could lessen or eliminate the need for new power plants, a new study shows.
MIT chemists found a way to cut the carbon footprint of producing white phosphorus, an ingredient in many consumer products.