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Modulating Lithium Metal Interphase Structures via Functional Design of Polymeric Ionic Liquids for Quasi-Solid-State Batteries

Authors
Jeong, WooyoungKim, Young-JunLee, Jong-Won
Issue Date
Feb-2025
Publisher
AMER CHEMICAL SOC
Keywords
Li-metal anode; protective layer; polymericionic liquid; solid-electrolyte interphase; interfacial stabilization
Citation
ACS Applied Energy Materials, v.8, no.4, pp 2638 - 2646
Pages
9
Indexed
SCIE
SCOPUS
Journal Title
ACS Applied Energy Materials
Volume
8
Number
4
Start Page
2638
End Page
2646
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/206679
DOI
10.1021/acsaem.4c03341
ISSN
2574-0962
2574-0962
Abstract
Despite the great potential of Li-metal anodes, the high reactivity of Li metal and dendritic Li growth hinder the stable operation of Li-metal batteries. Artificial Li protective layers have been introduced as a solution to stabilize the interface between the electrolyte and the Li-metal anode. In this study, we propose a functionally designed polymeric ionic liquid (PIL) for the interfacial stabilization of Li-metal anodes in quasi-solid-state batteries. Polycationic PILs are designed to form conductive and robust interphases at the PIL/Li while serving as an effective electrostatic shield to suppress dendrite growth. In addition to the optimized composition for facile Li+ transport kinetics in the PIL, the anion configurations in the PIL are engineered to produce highly ionic-conductive Li3N and to increase the concentration of LiF in the solid-electrolyte interphase. A PIL-coated Li-metal electrode (PIL thickness similar to 5 mu m) exhibits reduced interfacial resistance and enhanced cycling performances for the Li symmetric cell and full cell with a quasi-solid-state electrolyte and a high-loading LiNi0.8Co0.1Mn0.1O2 cathode (4 mAh cm-2). These findings provide insights into the design of protective PIL layers for constructing a stable interface between the electrolyte and the Li-metal anode.
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