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

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

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 announced that it has received support for a funding package worth up to ...

However, these lithium-ion batteries are not only expensive but also reliant on rare Earth materials and difficult manufacturing processes. As compared, zinc-sulfur batteries may serve as a better ...

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

Stellantis has partnered with Zeta Energy to develop lithium-sulfur EV batteries. This chemistry promises more range, less weight and lower costs compared to conventional lithium-ion cells.

A joint research team from a university and corporations has developed next-generation lithium-sulfur batteries to address the limitations of lithium-ion batteries used as the main energy source ...

The San Jose-based lithium battery manufacturer said it will use the funding to support its expansion of lithium-sulphur battery manufacturing in San Leandro, as well as in Reno, Nevada.

Stellantis NV and Zeta Energy Corp have entered into a joint development agreement to accelerate the development of advanced lithium-sulphur battery cells for electric vehicles (EVs). This ...

The financing would be used to scale Lyten’s San Leandro and Reno, Nevada, factories and supply lithium-sulfur batteries to fulfill near-term customer demand in rapidly growing international ...