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Enhanced rate and cycle performance of all-solid-state batteries with an ionic and electronic conductive composite strategy
Journal of Materials Chemistry A2025Vol. 13(13), pp. 9486–9492
K.C. Kim, K.C. Kim, Seung Ho Choi, Chaeyeon Ha, Hyun‐seung Kim, Woosuk Cho, Young‐Jun Kim, KyungSu Kim, KyungSu Kim
Abstract
An ionic and electronic conductive composite strategy mitigates CNF agglomeration, reduces pore formation, and enhances ion conduction, enabling high-density cathodes with improved rate and cycle performance of all-solid-state batteries.
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