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Scaling-Up Insights for Zinc–Air Battery Technologies Realizing Reversible Zinc Anodes
Advanced Materials, Early View
https://doi.org/10.1002/adma.202303509


Sambhaji S. Shinde, Nayantara K. Wagh, Chi Ho Lee, Dong-Hyung Kim, Sung-Hae Kim, Han-Don Um, Sang Uck Lee, Jung-Ho Lee


Abstract
Zinc–air battery (ZAB) technology is considered one of the promising candidates to complement the existing lithium-ion batteries for future large-scale high-energy-storage demands. The scientific literature reveals many efforts for the ZAB chemistries, materials design, and limited accounts for cell design principles with apparently superior performances for liquid and solid-state electrolytes. However, along with the difficulty of forming robust solid-electrolyte interphases, the discrepancy in testing methods and assessment metrics severely challenges the realistic evaluation/comparison and commercialization of ZABs. Here, strategies to formulate reversible zinc anodes are proposed and specific cell-level energy metrics (100−500 Wh kg−1) and realistic long-cycling operations are realized. Stabilizing anode/electrolyte interfaces results in a cumulative capacity of 25 Ah cm−2 and Coulomb efficiency of >99.9% for 5000 plating/stripping cycles. Using 1–10 Ah scale (≈500 Wh kg−1 at cell level) solid-state zinc–air pouch cells, scale-up insights for Ah-level ZABs that can progress from lab-scale research to practical production are also offered.