All solid-state lithium batteries are garnering attention in both academia and industry.
Lithium-ion conductive polymers and lithium-ion conductive ceramics are the two major …

Solid composite electrolytes (SCEs) that combine the advantages of solid polymer
electrolytes (SPEs) and inorganic ceramic electrolytes (ICEs) present acceptable ionic …

Conventional lithium‐ion batteries have approached their capacity and energy density limits.
Use of lithium metal anode can enable high‐energy batteries. However, the safety hazards …

NASICON-type (lithium super ionic conductor) solid electrolyte is of great interest because of
its high ionic conductivity, wide potential window, and good chemical stability. In this paper …

With technological advancements in electrochemical energy storage systems increasing at a
spectacular rate, batteries equipped with a lithium anode hold the key towards unlocking …

Flexible metal–gas batteries have become increasingly attractive for use in wearable
electronics in the recent years due to their large theoretical energy density and superior …

Satisfactory ionic conductivity and mechanical stability are the prerequisites for the
applications of solid polymer electrolytes in Li-ion batteries. Herein, by using aramid …

Quasi-solid-state lithium metal batteries are considered as one of the most promising energy
storage devices, and the application of ionic liquids (ILs) as a new generation of …

In the transition to safer, more energy-dense solid state batteries, polymer–ceramic
composite electrolytes may offer a potential route to achieve simultaneously high Li-ion …

Develo** inexpensive, noble metal-free, efficient, stable, and bifunctional electrocatalysts
has attracted significant research interest in electrocatalysis and air battery-based energy …