Abstract Lithium–air (Li–air) batteries stand out among the post‐Li‐ion batteries due to their
high energy density, which has rapidly progressed in the past years. Regarding the …

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 …

Abstract Li‐O2 battery (LOB) is a promising “beyond Li‐ion” technology with ultrahigh
theoretical energy density (3457 Wh kg− 1), while currently impeded by the sluggish …

Metal-organic frameworks (MOFs) are considered as promising oxygen electrode materials
for lithium-oxygen (Li-O 2) batteries. However, their structure-activity relationship in …

Designing oxygen catalysts with well-defined shapes and high-activity crystal facets is of
great importance to boost catalytic performance of Li–O2 batteries but challenging. Herein …

It is significant to develop catalysts with high catalytic activity and durability to improve the
electrochemical performances of lithium‐oxygen batteries (LOBs). While electronic metal …

As a potential candidate for next‐generation energy storage systems, Li–O2 batteries
(LOBs) with their attractive theoretical energy density have triggered great interest. However …

Probing the relationship between the adsorption of superoxide species and the kinetics of Li–
O 2 chemistry is critical for designing superior oxygen electrodes for the Li–O 2 battery, yet …

Designing deformable supercapacitors (D‐SCs) that have robust skeleton and smoothly
active channels for charges kinetic migration and faradic storage are highly crucial for …

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 …