Owing to the ever‐increasing safety concerns about conventional lithium‐ion batteries,
whose applications have expanded to include electric vehicles and grid‐scale energy …

For next-generation all-solid-state metal batteries, the computation can lead to the discovery
of new solid electrolytes with increased ionic conductivity and excellent safety. Based on …

All-solid-state batteries, employing inorganic ion conductors as electrolytes, can surpass the
current Li-ion technology in terms of energy density, battery safety, specific power, as well as …

A high performance and stable Li-ion conductive solid electrolyte is one of the key
components for the future all-solid-state batteries with metallic lithium anodes. Phosphate …

Inorganic lithium-ion conductors have garnered considerable attention as separators for all-
solid-state lithium-ion battery applications, given their potential to solve the safety issues and …

Solid electrolytes are key elements for next-generation energy storage systems. To design
powerful electrolytes with high ionic conductivity, we need to improve our understanding of …

Solid-state sodium electrolytes are expected to improve next-generation batteries on the
basis of favorable energy density and reduced cost. Na 3 SbS 4 represents a new solid-state …

Portable electronic devices, electric vehicles and stationary energy storage applications,
which encourage carbon-neutral energy alternatives, are driving demand for batteries that …

Two lithium oxonitridophosphate materials are computationally examined and found to be
promising solid electrolytes for possible use in all solid-state batteries having metallic Li …

Abstract In this study, First-Principles simulations were utilized to investigate the structural
characteristics and address some of the stability issues of the solid electrolyte material Li 4 …