Abstract Aprotic Li-air (O 2) batteries (ALBs), with theoretical energy density 3∼ 5 times
higher than that of state-of-the-art Li-ion batteries, could potentially power an electric vehicle …

Li–air batteries are considered to be one of the most promising energy storage devices due
to their high energy density and large specific capacity. But the high overpotential, the …

Li-O 2 batteries have attracted much attention due to their high energy density. However, the
high charging potential (∼ 4.5 V) causes serious side reactions and safety issues, which are …

The large overpotential for conventional Li-O 2 batteries is an enormous challenge, which
impedes their practical application. Here, we prepare a defective TiO 2 (Ov-TiO 2) hollow …

The realization of lithium‐metal (Li) batteries faces challenges due to dendritic Li deposition
causing internal short‐circuit and low Coulombic efficiency. In this regard, the Li‐deposition …

Heterogeneous crystalline‐amorphous structures, with tunable electronic structures and
morphology, hold immense promise as catalysts for lithium‐oxygen batteries (LOBs). Herein …

The photoassisted electrochemical reactions are considered an effective method to reduce
the overpotential of Li–O2 batteries. However, achieving long-term cell cycling stability …

High-entropy catalysts featuring exceptional properties are, in no doubt, playing an
increasingly significant role in aprotic lithium-oxygen batteries. Despite extensive effort …

Prelithiating cathode is considered as one of the most promising lithium compensation
strategies for practical high energy density batteries. Whereas most of reported cathode …

Abstract Lithium-Air Battery (LAB) is expected to develop ultra-high energy density batteries,
but the low rate performance and poor cycle life of present LAB cells hinder practical …