The lithium (Li) metal anode is confronted by severe interfacial issues that strongly hinder its
practical deployment. The unstable interfaces directly induce unfavorable low cycling …

Li-metal anodes are one of the most promising energy storage systems that can
considerably exceed the current technology to meet the ever-increasing demand of power …

Dendritic Li deposition has been “a Gordian knot” for almost half a century, which
significantly hinders the practical use of high-energy lithium metal batteries (LMBs). The …

Uniform lithium plating/stripping during charging/discharging in 3D lithiophilic current
collectors (3DLCC) is essential to suppress growth of lithium dendrites and to mitigate …

Lithium (Li) metal has been pursued as “Holy Grail” among various anode materials due to
its high specific capacity and the lowest reduction potential. However, uncontrolled growth of …

Solid‐state lithium metal batteries (SSLMBs) are identified as a highly promising candidate
for next‐generation energy storage devices, yet they still face uncontrollable dendritic lithium …

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 …

Rechargeable lithium‐metal batteries (RLBs), which employ the Li‐metal anode to acquire
notably boosted specific energy at cell level, represent the “Holy Grail” for “beyond Li‐ion” …

The growth and proliferation of Li dendrites during repeated Li cycling has long been a
crucial issue that hinders the development of secondary Li-metal batteries. Building a stable …

Lithium (Li) metal with high theoretical capacity is considered as one of the important anode
materials for the next-generation high-energy density batteries. However, the further …