High-energy rechargeable lithium (Li) metal batteries (LMBs) with Li metal anode (LMA)
were first developed in the 1970s, but their practical applications have been hindered by the …

It has been a long pursuit for the adoption of the lithium (Li) metal anode because of its
extremely high specific capacity and the lowest electrochemical equilibrium potential …

The solid electrolyte interphase (SEI) is a chemically distinct material phase formed by a
combination of electrochemical reduction and chemical reactions at both the explicit and …

This comprehensive Review focuses on the key challenges and recent progress regarding
sodium-metal anodes employed in sodium-metal batteries (SMBs). The metal anode is the …

Lithium metal anodes have attracted extensive attention owing to their high theoretical
specific capacity. However, the notorious reactivity of lithium prevents their practical …

Lithium metal is a promising anode to provide high energy density for next-generation
batteries. However, it has not been implemented due to its low cycling efficiency, which …

Lithium-ion batteries have had a profound impact on our daily life, but inherent limitations
make it difficult for Li-ion chemistries to meet the growing demands for portable electronics …

Among the candidates to replace Li-ion batteries, Li–S cells are an attractive option as their
energy density is about five times higher (~ 2,600 Wh kg− 1). The success of Li–S cells …

Lithium‐metal batteries (LMBs), as one of the most promising next‐generation high‐energy‐
density storage devices, are able to meet the rigid demands of new industries. However, the …

Lithium‐metal batteries have attracted much attention due to their high energy density.
However, the hydrolysis of LiPF6 leads to uncontrollable Li dendrites growth and fast …