A longer-lasting EV battery could be just around the corner thanks to new research into single-crystal electrode batteries.

A battery that can power an astounding five million miles of travel. Scientists shatter battery expectations with ...

A battery-quality purity of 99.71% was achieved using the same conditions and equipment planned for the full-scale lithium ...

U.S. Army scientists have developed a new surface treatment that could lead to more efficient and longer-lasting batteries ...

Most batteries are rigid and incompatible with water. But people work and play in oceans and estuaries, and they could ...

Sodium-sulfur batteries are a great option for energy storage, and the new electrolyte can help energy companies realize ...

Researchers report in ACS Applied Materials and Interfaces a yarn-like battery prototype that works when immersed in seawater ...

A study reveals carrageenan as an effective binder for lithium-sulfur batteries, enhancing performance with eco-friendly, ...

Large batteries are essential for storing solar and wind power, helping integrate renewable energy into the power grid.

The design uses the features of seawater to its advantage by utilizing the sodium, chloride, and sulfate ions as the battery's electrolyte.

Using single wall carbon nanotube (SWCNT) and functional oxygen groups, Korean researchers tackle the hurdle of polysulfides in lithium-sulfur batteries.

Samsung may finally start embracing silicon-carbon batteries in smartphones with next year's Galaxy S26 series.