Abstract Alkali metals (ie, Li, Na, and K) are promising anode materials for next‐generation
high‐energy‐density batteries due to their superior theoretical specific capacities and low …

Graphene is composed of single-layered sp2 graphite and has been widely used in
electrochemical energy conversion and storage due to its appealing physical and chemical …

This work investigates the root cause of failure with the ultimate anode, Li metal, when
employing conventional/composite separators and/or porous anodes. Then a feasible route …

The exploration of interface engineering is one of the critical maneuvers to develop high-
energy-density Li metal batteries. Until now, the integrated regulation strategies on ionic …

Remarkable advances in wearable electronics have brought numerous multi-functionalities
in health monitoring, but demanded more power, necessitating larger batteries and frequent …

Constructing three-dimensional (3D) structural composite lithium metal anode by molten-
infusion strategy is an effective strategy to address the severe problems of Li dendritic …

Owing to their enhanced safety and potentially high energy density, all-solid-state batteries
(ASSBs) are gaining discernible attention in the emerging era of electric mobility. However …

Li/Na metal anodes, based on their high theoretical capacity and low electrochemical
potential, provide promising alternatives for next-generation high energy batteries. However …

Lithium (Li) metal batteries have attracted much attention owing to its ultra-high energy
density. However, as important part of Li metal batteries, Li anodes still face many …

The high specific capacity of lithium metal is ideal to meet the current demand in
rechargeable batteries but lithium dendrites and irreversible volume expansions are major …