Picture an electric car that could go 600, 700 or even 1,000 miles on a single charge. That's much farther than the ...

A recent breakthrough by Korean researchers could be a game changer for the electric vehicle (EV) industry. They have ...

A protein foamed binder forms stable ion channels in dense lithium sulfur cathodes, delivering higher volumetric energy and ...

Lithium–sulfur chemistry enables higher energy density using low-cost sulfur instead of metals found in lithium-ion batteries.

Lithium-sulfur batteries stand out over traditional lithium-ion batteries for their high energy density, promising longer power durations for devices and electric vehicles. Furthermore, sulfur, which ...

You must have read that a battery pack will outlast your battery electric vehicle (BEV). That is repeated countless times in the hope that people will believe it is true, as a certain propaganda ...

Carbon-supported single-atom catalysts with metal-N moieties are promising for high-performance lithium–sulfur batteries. In ...

The first and only time I wrote about Lyten until now was in 2021. The startup had just introduced its LytCell EV lithium-sulfur battery, which promised to make this chemistry viable thanks to what ...

A battery materials company plans to build the world’s first lithium-sulfur battery gigafactory in Nevada. Lyten, a California-based startup, said it will invest more than $1 billion in a project that ...

On Thursday, Stellantis revealed a new investment in Lyten, an advanced materials company and pioneer behind lithium-sulfur EV battery tech. Silicon Valley-based startup Lyten says its LytCell lithium ...

This graphic shows the benefits of MOF-based materials and their use in lithium-sulfur batteries, which have many advantages over current lithium-ion technology. Some advantages include easy ...

Photomontage: the diagonal line divides the image into a photo of the lithium-sulfur pouch cell (left) and the corresponding X-ray image (right) during the multimodal measurement with force sensor ...