The batteries in our phones, devices, and electric cars rely on metals like lithium and cobalt. Mining these materials is ...

Professor Jong-sung Yu's team developed a nitrogen-doped porous carbon material that boosts lithium–sulfur battery ...

When we plug in our cell phones to charge them, we take it for granted that they'll soon be brimming with energy for ...

But the job of getting lithium out of European ground is not easy. The metal is mostly found in hard-rock deposits. Open-pit ...

THUNDER BAY — Fires involving hybrid-electric vehicles can be particularly difficult to extinguish, as a city resident ...

Innovative use of triphenylphosphine oxide from industrial waste shows promise for sustainable energy storage in redox flow batteries, researchers say.

Evanston, United States - January 07, 2025 A pioneering breakthrough from Northwestern University is turning industrial waste into a powerful tool for energy storage, potentially revolutionizing green ...

Researchers develop a nitrogen-doped carbon material to boost lithium-sulfur battery charging speed and stability, achieving ...

The adoption of Li-ion batteries has had a profound impact on the way we use and store energy in modern society." On August 13, 2024, NEO announced coating technology innovations that improved battery ...

This new coating process has the potential to significantly increase the energy density of a wide range of battery types.

Proton batteries utilize hydrogen ions for energy storage, offering a sustainable alternative to lithium-ion batteries with ...