Lithium-ion batteries are widely viewed as a necessity for meeting our growing energy demands while reducing our dependence ...

A research team headed by Professor Jong-sung Yu of the DGIST Department of Energy Science and Engineering has created a ...

When the team tested their new material in a lithium–sulfur battery, it delivered outstanding results. The battery charged ...

The nitrogen-doped carbon material helps lithium-sulfur batteries charge faster, hold more energy, and last longer, solving ...

A research team has developed an innovative technology to dramatically improve the charging speed of lithium–sulfur batteries ...

DGIST’s Professor Jong-sung Yu’s Team, in Collaboration with Argonne National Laboratory, Develops Next-Generation High-Capacity Lithium–Sulfur Battery Capable of Rapid Charging - Research Findings Pu ...

A Bay Area-based technology company has secured funding for a massive lithium-sulfur battery facility in north Reno. Lyten ...

Cambridge University spinoff Molyon has a fairly spartan website, featuring only its name, slogan, and contact information.

KAIST and LG Energy Advance Lithium-Sulfur Batteries for Aviation Mobility Researchers unveil new battery technology aimed at revolutionizing air travel efficiency ...

"Lyten’s lithium-sulfur batteries are a U.S. innovation and rely on a U.S. materials supply chain. The San Leandro and Reno factories will make the U.S. the world’s leading manufacturer and ...

When batteries operate, ions move between the anode and cathode through the electrolyte, as described in a U.S. government fact sheet. The composite demonstrated great results after testing with ...

Lyten recently announced the location of the world's first lithium-sulfur battery gigafactory in Reno, Nevada. The facility is scheduled to come online in 2027 and reach 10 GW annually at full ...