Li-containing alloys beneficial for stabilizing lithium anode: A review

Due to the soaring growth of electric vehicles and grid-scale energy storage, high-safety and high-energy density battery storage systems are urgently needed. Lithium metal anodes, which possess the highest theoretical specific capacity (3860mAhg(-1)) and the lowest electrochemical potential (-3.04V vs standard hydrogen electrode) among anode materials, are regarded as the ultimate choice for high-energy density batteries. However, its safety problems as well as the low Coulombic efficiency during the Li plating and stripping process significantly limit the commercialization of lithium metal batteries. Recently, Li-containing alloys have demonstrated vital roles in inhibiting lithium dendrite growth, controlling interfacial reactions and enhancing the Coulombic efficiency (CE) as well as cycle life. Accordingly, in this perspective, the progresses of lithium alloys for robust, stable, and dendrite free anodes for rechargeable lithium metal batteries are summarized. The challenges and future research focus of lithium-containing alloys in lithium metal batteries are also discussed.

Automated summary

The article summarizes the importance of lithium-containing alloys for high-safety and high-energy density battery storage systems in electric vehicles and grid-scale energy storage. It highlights the recent progress in inhibiting lithium dendrite growth and improving Coulombic efficiency, while discussing the challenges and future research focus of lithium-containing alloys in lithium metal batteries.