The chemistry that can provide power from metals makes those metals degrade over time and there's not much we can do about it ...

MIT researchers have created a model that shows how lithium moves in batteries and why it affects charging speed and power.

At the heart of all lithium-ion batteries is a simple reaction: Lithium ions dissolved in an electrolyte solution ...

Forget cell-to-pack and cell-to-body battery designs. This EV battery company is proposing something entirely different.

MIT's study on lithium intercalation rates offers insights into coupled ion-electron transfer, paving the way for faster ...

Lithium-ion battery fires are rising in North Texas, pushing firefighters to test new tactics against the dangerous blazes.

There is not a single solution on how to mitigate fires from lithium-ion batteries in electric vehicles. Strategies and concerns will continue to change as car manufactureres continue to release ...

For decades, the automotive world has been dominated by internal combustion engines, with oil giants holding the reins.

Researchers used a natural compound derived from the pomegranate tree to improve lithium recovery from smelting slags.

Fires from lithium-ion rechargeable batteries are a rising threat to recycling and disposal facilities across the country.

A new study could guide the design of more powerful and faster charging lithium-ion batteries. MIT researchers measured ...