An energy-storage solution that flows like soft-serve ice cream
Researchers make the case for a semisolid electrochemical compound as a cost-efficient, grid-scale battery backup for wind and solar power.
Researchers make the case for a semisolid electrochemical compound as a cost-efficient, grid-scale battery backup for wind and solar power.
Eli Paster SM ’10, PhD '14 is the CEO of PolyJoule, a startup working to reinvent energy storage technology to increase efficiency and reduce costs.
As researchers consider materials for solid-state batteries, they also may want to consider how those materials could impact large-scale manufacturing.
Interest is growing in mining the ocean for valuable metals. A new study helps gauge the extent of the impact.
Massachusetts Secretary of Energy and Environmental Affairs discusses the state’s plans to achieve net-zero emissions by 2050 and how to get there.
“This is the key, the linchpin that will set a lot of things in the right direction,” says the mechanical engineering professor.
Study: Using trucks as both storage and means of energy transmission reduces hydrogen supply chain costs and encourages green hydrogen production from variable renewable energy.
By selectively heating specific phonons without heating the entire material, researchers have enhanced ion diffusion in a way that could have broad applications.
Benton Calhoun SM '02 PhD '06 and David Wentzloff SM '02 PhD '07 are co-founders of Everactive, which uses wireless sensing to provide continuous remote monitoring for the industrial internet of things.
MIT research team finds machine learning techniques offer big advantages over standard experimental and theoretical approaches.
Researchers evaluate the role and value of long-duration energy storage technologies in securing a carbon-free electric grid.
Use of a novel electrolyte could allow advanced metal electrodes and higher voltages, boosting capacity and cycle life.
New findings may help unleash the potential of high-powered, solid-electrolyte lithium batteries.
Manipulating materials at a fundamental level, Ju Li reveals new properties for energy applications.
MIT researchers develop novel EV emissions model to quantify importance of vehicle charging patterns and impact of ambient temperature on EV emissions levels.