Customized polymer electrolytes for high-energy-density lithium batteries

Shuoxiu Fang; Jiahui Qiao; Xinhai Yuan; Lili Liu; Lijun Fu; Yuhui Chen; Svetlana Eliseeva; Rudolf Holze; Yuping Wu

doi:10.20517/energymater.2025.230

Energy Materials ›› 2026, Vol. 6 ›› Issue (4) -600040. DOI: 10.20517/energymater.2025.230

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Customized polymer electrolytes for high-energy-density lithium batteries

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Abstract

Solid-state batteries with lithium-rich manganese layered oxide (LRMO) cathodes, anode-free architectures, and polymer electrolytes offer high energy density and enhanced safety. However, unstable cathode morphology and irreversible redox reactions at the electrolyte-cathode interface lead to severe interfacial degradation and poor cycling stability. Recently, a fluoropolyether-based polymer electrolyte has been developed, which is a copolymer synthesized via in situ polymerization of poly(ethylene glycol) methyl ether acrylate and fluorohydrocarbon monomers. Its anion-rich solvation environment drives the in situ formation of fluorine-rich interphases at both electrodes and significantly improves the redox reversibility of LRMO. This quasi-solid polymer electrolyte, containing 30 wt% trimethyl phosphate, enables the LRMO cathode to achieve energy densities of 604 Wh kg^-1 and 1,027 Wh L^-1 in pouch batteries. Despite this progress, practical deployment still requires the development of low-fluorine electrolytes, uniform in situ polymerization in large-format batteries, improved mechanical robustness, and long-term stability with lithium metal and high-voltage LRMO cathodes.

Keywords

Lithium-rich manganese oxide / polymer electrolytes / solid-state batteries / fluoropolyether / interfacial stability / energy density

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Shuoxiu Fang, Jiahui Qiao, Xinhai Yuan, Lili Liu, Lijun Fu, Yuhui Chen, Svetlana Eliseeva, Rudolf Holze, Yuping Wu. Customized polymer electrolytes for high-energy-density lithium batteries. Energy Materials, 2026, 6(4): -600040 DOI:10.20517/energymater.2025.230

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