Ampcera® is at the forefront of innovation, dedicated to redefining energy storage through cutting-edge solid electrolyte ...

Learn about the latest developments in solid-state batteries for electric vehicles (EVs). Discover the promising materials ...

This electrode combines a solid sulfide electrolyte with a lithium sulfide-based solid solution, and presents the highest capacity and lifespan among previously reported lithium-sulfur secondary ...

For that reason, considerable research and development is being conducted on sulfide-based solid electrolytes that exhibit excellent ionic conductivity and plasticity to apply these batteries to EVs.

This innovation could help speed up the development of all-solid-state batteries (ASSBs), which are safer and more efficient ...

The existing 'coprecipitation method' is upgraded by R&D collaboration. By identifying the mechanisms of dissolution and ...

While sulfide-based solid electrolytes exhibit excellent ionic conductivity, their chemical instability with high-voltage cathode materials necessary for high-energy-density batteries has impeded ...

“These solid electrolytes are broadly categorized into sulfide-based, oxide-based, and polymer-based types.” As the company points out, oxide-based electrolytes are challenging to work ...

In a press release, SK On said it's developing two types of solid-state batteries: one with a sulfide-based electrolyte, and one with an oxide-based electrolyte, and commercial prototypes are ...

The firm develops all-solid-state battery cell technology that replaces the liquid or gel polymer electrolyte used in conventional lithium-ion battery cells with a sulfide-based solid electrolyte.