Researchers in China develop high lithiophilic Mg-Li-Cu alloy anode for highly reversible lithium metal batteries
07 July 2024
A team of researchers in China has used a high lithiophilic Mg-Li-Cu alloy to stabilize a Li metal anode. Due to the delocalization of electrons on the deposited lithium enhanced by Cu self-diffusion into Mg-Li alloy, the growth of lithium dendrites can be inhibited by the Mg-Li-Cu alloy. Moreover, the parasitic reactions with electrolyte can be avoided by the Mg-Li-Cu alloy anode.
In an open-access paper in the Journal of Magnesium and Alloys, the team reported that the symmetric battery life of Mg-Li-Cu alloy electrodes exceeds 9000 h at 1 mA cm−2 and 1 mAh cm−2. The full cell (LiFePO4 || Mg-Li-Cu) exhibits a specific capacity of 148.2 mAh g−1, with a capacity retention of 96.4%, at 1 C after 500 cycles.
The adsorption configuration (a, c) and charge density difference plot (b, d) of Li on Mg-Li (110) surface (a, b) and Mg-Li-Cu (110) surface (c, d), respectively. Areas of charge accumulation are shown in yellow while depletion is shown in light blue. Schematic illustration of Li deposition behavior on (e) bare Li, (f) Mg-Li and (g) Mg-Li-Cu, respectively. Li et al.
This work not only pave the way for application of flexible alloy anode in highly stable LMBs, but also provides novel strategies for preparation and optimization of Mg alloy.
—Li et al.
Resources
Xinbin Li, Shuai Liu, Fangya Li, Kaiwen Ma, Hao Xu, Zhiang Li, Fan Ding, Zhenhua Yan, Runhua Fan, Hongzhi Cui, Mg-Li-Cu alloy anode for highly reversible lithium metal batteries, Journal of Magnesium and Alloys, 2024, doi: 10.1016/j.jma.2024.05.024
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