Lithium-ion batteries are nowadays one of the ultimate energy-storage devices with high
power and energy densities. Their thermal-abuse tolerance is needed urgently to meet the …

Abstract Lithium-sulfur (Li-S) batteries are a promising alternative to conventional lithium-ion
batteries (LIBs) for next-generation energy storage. Despite the considerable progress in …

All‐solid‐state lithium batteries (ASSLBs), as the next‐generation energy storage system,
potentially bridge the gap between high energy density and operational safety. However, the …

The ion transport channel constructed by the separator is crucial for the practical
performance of Li-ion batteries, including cycling stability and high rate capability under high …

Major challenges in the development of solid-state batteries using garnet-type solid-state
electrolytes (SSEs) include suppressing dendrite growth, improving moisture stability, and …

Abstract Lithium–sulfur (Li–S) battery is one of the most promising next‐generation
rechargeable batteries. Lots of fundamental research has been done for the problems …

Interfaces and intermediate phases, which both promote energy storage in batteries and
trigger many degradations, have been a double-edged sword in battery development. To …

As a vital part of lithium-ion batteries (LIBs), the separator is closely related to the safety and
electrochemical performance of LIBs. Despite the numerous membranes/separators …

The unmanageable growth of lithium dendrites has severely restrained the application of Li
mental anode for higher energy density batteries. To tackle the issue of lithium dendrites, a …

Lithium dendrites cause battery failures and safety hazards in liquid‐electrolyte lithium‐
based batteries. To address this problem, each component of the battery, such as cathode …