It is of great significance to develop clean and new energy sources with high‐efficient
energy storage technologies, due to the excessive use of fossil energy that has caused …

Lithium (Li) metal, owing to its high specific capacity and low redox potential as a Li+ ion
source in rechargeable lithium batteries, shows impressive prospects for electrochemical …

Lithium-ion batteries have had a tremendous impact on several sectors of our society;
however, the intrinsic limitations of Li-ion chemistry limits their ability to meet the increasing …

Lithium (Li) metal, a typical alkaline metal, has been hailed as the “holy grail” anode material
for next generation batteries owing to its high theoretical capacity and low redox reaction …

Lithium (Li) metal is one of the most promising alternative anode materials of next‐
generation high‐energy‐density batteries demanded for advanced energy storage in the …

The long-term cycling of anode-free Li-metal cells (ie, cells where the negative electrode is
in situ formed by electrodeposition on an electronically conductive matrix of lithium sourced …

The lithium metal anode is a competitive candidate for next‐generation lithium‐ion batteries
for its low redox potential and ultra‐high theoretical specific capacity. Nevertheless …

Heterogeneous electrode materials possess abundant heterointerfaces with a localized
“space charge effect”, which enhances capacity output and accelerates mass/charge …

This tutorial review explains the emerging understanding of the surface and bulk chemistry–
electrochemical performance relations in anode supports (aka secondary current collectors …

Lithium and sodium metal batteries continue to occupy the forefront of battery research.
Their exceptionally high energy density and nominal voltages are highly attractive for cutting …