“…Lithium metal anodes (LMAs) have emerged as highly promising candidates for anode materials in future high-energy-density battery systems due to their exceptional theoretical specific capacity (3860 mA h g −1 ) and low redox potential (−3.04 V vs. standard hydrogen electrode). 1–7 However, LMAs exhibit excessively high chemical reactivity, rendering them susceptible to reactions with various components in the air during preparation and storage, consequently leading to failure. 8–11…”
Iodine is utilized to remove the passivation layer on the metallic Li surface and generate a protective layer rich in lithium iodide, thereby reactivating the deactivated metallic Li.
“…Lithium metal anodes (LMAs) have emerged as highly promising candidates for anode materials in future high-energy-density battery systems due to their exceptional theoretical specific capacity (3860 mA h g −1 ) and low redox potential (−3.04 V vs. standard hydrogen electrode). 1–7 However, LMAs exhibit excessively high chemical reactivity, rendering them susceptible to reactions with various components in the air during preparation and storage, consequently leading to failure. 8–11…”
Iodine is utilized to remove the passivation layer on the metallic Li surface and generate a protective layer rich in lithium iodide, thereby reactivating the deactivated metallic Li.
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