A central question in solid-state ionics is what structural and chemical factors enable certain solids to conduct ions as efficiently as liquids. Understanding this phenomenon is essential for ...

Solid‑state lithium batteries (SSLBs) are emerging as a vital next‑generation energy storage technology due to their superior ...

Solid-state sodium batteries use sodium, a more abundant and accessible resource compared to lithium. Sodium is primarily derived from sodium chloride, which is abundant in seawater and readily ...

A Swiss research team has developed a low-temperature sintering and interface-coating process that significantly improves the durability of argyrodite-based solid-state batteries. The approach ...

A solid-state ionic bilayer generates stable electricity for over 60 hours through spontaneous ion migration alone, eliminating the need for mechanical, thermal, or environmental triggers. (Nanowerk ...