Nonaqueous lithium–air batteries have garnered considerable research interest over the
past decade due to their extremely high theoretical energy densities and potentially low cost …

Abstract Lithium–oxygen (Li–O 2) batteries have great potential for applications in electric
devices and vehicles due to their high theoretical energy density of 3500​ Wh kg− 1 …

The lithium metal battery is strongly considered to be one of the most promising candidates
for high-energy-density energy storage devices in our modern and technology-based …

Among the promising batteries for electric vehicles, rechargeable Li‐air (O2) batteries
(LABs) have risen keen interest due to their high energy density. However, safety issues of …

Potassium may exhibit advantages over lithium or sodium as a charge carrier in
rechargeable batteries. Analogues of Prussian blue can provide millions of cyclic …

The lithium–O2 battery is one of most promising energy storage and conversion devices due
to its ultrahigh theoretical energy density and hence has broad application potential in …

Li–O2 batteries have received much attention due to their extremely large theoretical energy
density. However, the high overpotentials required for charging Li–O2 batteries lower their …

The seemingly simple reaction of Li–O2 batteries involving lithium and oxygen makes this
chemistry attractive for high-energy-density storage systems; however, achieving this …

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 …

In the Li‐O2 field, the electrocatalyst plays an important role in accelerating the sluggish
electrochemical reactions, thus improving the performances of Li‐O2 battery. In this field …