Conspectus As the world transitions away from fossil energy to green and renewable
energy, electrochemical energy storage increasingly becomes a vital component of the mix …

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 …

All solid‐state batteries holds great promise for superiorly safe and high energy
electrochemical energy storage. The ionic conductivity of electrolytes and its interfacial …

Commercialization of solid‐state batteries requires the upscaling of the material syntheses
as well as the mixing of electrode composites containing the solid electrolyte, cathode active …

Argyrodite-type sulfide solid electrolytes (SEs) Li6PS5X (X= Cl, Br, I) have attracted
considerable interest lately by providing a promising lithium-ion transport capability for its …

Li‐ion batteries (LIBs) are the energy storage systems of choice for portable electronics and
electric vehicles. Due to the growing deployment of energy storage solutions, LIBs are …

Due to the use of liquid electrolytes containing flammable organic solvents, commercial
lithium-ion batteries have potential safety issues. All-solid-state lithium batteries (ASSLBs) …

This review is focused on the influence of lattice dynamics on the ionic mobility in superionic
conductors in particular solid‐state Li‐ion conductors. After a succinct review of the static …

The correlation between lattice chemistry and cation migration in high‐entropy Li+
conductors is not fully understood due to challenges in characterizing anion disorder. To …