New technique applied to small computer chips enables efficient vision and detection algorithms without internet connectivity.
Researchers make the case for a semisolid electrochemical compound as a cost-efficient, grid-scale battery backup for wind and solar power.
MIT-led team finds holistic optimization of electric power and hydrogen supply chain infrastructure is favorable for emission reductions and decreased infrastructure costs.
Analyzing California’s power system, MITEI researchers show that hydrogen-generated electricity is a cost-competitive candidate for backing up wind and solar.
An MIT study gauges the pace of shifting to battery power.
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.
Researchers evaluate the role and value of long-duration energy storage technologies in securing a carbon-free electric grid.
Study uncovers overlooked environmental impacts of internet use by estimating associated carbon, land, and water footprints.
Aims to reduce carbon emissions through changes in procurement, waste tracking, airline travel, and other areas of operation.
MIT researchers develop novel EV emissions model to quantify importance of vehicle charging patterns and impact of ambient temperature on EV emissions levels.