Solid-state electrolytes (SEs) have attracted overwhelming attention as a promising
alternative to traditional organic liquid electrolytes (OLEs) for high-energy-density sodium …

Solid‐state metal–air batteries have emerged as a research hotspot due to their high energy
density and high safety. Moreover, side reactions caused by infiltrated gases (O2, H2O, or …

Next‐generation batteries have long been considered a transition to more sustainable
storage technologies. Among them, metal–air batteries (MABs) with low cost, high safety …

Ether‐based electrolytes are considered as an ideal electrolyte system for sodium metal
batteries (SMBs) due to their superior compatibility with the sodium metal anode (SMA) …

All-solid-state metal–oxygen batteries are considered promising for next-generation energy
storage applications owing to their superior theoretical capacity, energy density, and safety …

Sodium‐ion batteries (SIBs) are becoming promising candidates for energy storage devices
due to the low cost, abundant reserves, and excellent electrochemical performance. As the …

Solid-state sodium-ion batteries are attracting great attention due to their high energy
density and high safety. However, the Na dendrite growth and poor wettability between …

Solid‐state sodium batteries (SSSBs) are poised to replace lithium‐ion batteries as viable
alternatives for energy storage systems owing to their high safety and reliability, abundance …

Solid-state polymer electrolytes (SPEs) are deemed as a class of sought-after candidates for
high-safety and high-energy-density solid-state lithium metal batteries, but their low ionic …

This perspective points out the potential of solid‐state Na‐air/O2 batteries for powering next‐
generation storage devices, highlighting their high energy density, efficiency, and cost …