Inorganic solid-state electrolytes (ISEs) are ceramic materials with high ionic transport for
lithium ions, which can provide a stable and efficient transport medium for ion flow between …

Anti-perovskite compounds have drawn significant research interest as promising next-
generation electrolytes for solid-state batteries, due to the high chemical stability against Li …

Solid‐state batteries (SSBs) are under development as high‐priority technologies for safe
and energy‐dense next‐generation electrochemical energy storage systems operating over …

Ionic diffusivity plays a central role in battery performance. A cathode material for lithium-ion
(Li-ion) batteries, LiFePO4 (LFP), performs poorly at high current rates due to low Li-ion …

Designing solid electrolytes with high room temperature (RT) conductivity is essential for the
development of the next generation of solid-state batteries. Beyond the static structural …

High-temperature lithium-ion batteries (HLBs) are a crucial component in logging while
drilling (LWD) equipment, facilitating the date acquisition, analysis, and transmission in …

Garnet-based electrolytes with high ionic conductivity and excellent stability against lithium
metal anodes are promising for commercial applications in solid-state lithium batteries …

Solid-state electrolytes (SSEs) have emerged as promising alternatives to traditional liquid
electrolytes due to their enhanced safety, higher stability and energy density in energy …

The development of all-solid-state lithium-ion batteries (ASSLIBs) is highly dependent on
solid-state electrolyte (SSEs) performance. However, current SSEs cannot satisfactorily meet …

Li3NbO4 exhibits a high theoretical lithium-ion conductivity and a wide electrochemical
window, positioning it as a promising solid electrolyte material with significant potential …