Abstract Lithium–sulfur (Li–S) batteries have high theoretical energy density and are
regarded as next‐generation batteries. However, their practical energy density is much …

Li metal anodes have attracted tremendous attention in the last decade because of their
high theoretical capacities and low electrochemical potentials. However, until now, there has …

The concentration difference in the near-surface region of lithium metal is the main cause of
lithium dendrite growth. Resolving this issue will be key to achieving high-performance …

Metallic lithium is the most competitive anode material for next‐generation high‐energy
batteries. Nevertheless, the extensive volume expansion and uncontrolled Li dendrite …

The lithium (Li) dendrite growth seriously hinders the applications of lithium metal batteries
(LMBs). Numerous methods have been proposed to restrict the formation of Li dendrites by …

Na metal batteries (NMBs) are attracting increasing attention because of their high energy
density. However, the widespread application of NMBs is hindered by the growth of Na …

Li metal anode has attracted widespread attention in recent years because of its high
theoretical capacity and low electrochemical potential. It has been regarded as the most …

Lithium metal is considered as a promising anode for its high energy density and low redox
potential. However, dendrite growth and electrolyte‐lithium reaction lead to poor cycling …

Lithium metal is one of the most promising anode materials for Li-ion batteries. However,
lithium metal anodes suffer from low coulomb efficiency, short cycle life, and even serious …

Compared with other anode materials, Li metal anode has higher capacity density and lower
electrode potential, which has been considered as one of the most promising anode …