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Fluorinated Poly‐oxalate Electrolytes Stabilizing both Anode and Cathode Interfaces for All‐Solid‐State Li/NMC811 Batteries

Han Sun, Xiaoxin Xie, Qiu Huang, Zhaoxu Wang, Kejun Chen, Xiaolei Li, Jian Gao, Yutao Li, Hong Li, Jieshan Qiu, Weidong Zhou

2021Angewandte Chemie20 citationsDOI

Abstract

Abstract The relatively narrow electrochemical steady window and low ionic conductivity are two critical challenges for Li + ‐conducting solid polymer electrolytes (SPE). Here, a family of poly‐oxalate(POE) structures were prepared as SPE; among them, POEs composed from diols with an odd number of carbons show higher ionic conductivity than those composed from diols with an even number of carbons, and the POE composed from propanediol (C5‐POE) has the highest Li + conductivity. The HOMO (highest occupied molecular orbital) electrons of POE were found located on the terminal units. When using trifluoroacetate as the terminating unit (POE‐F), not only does the HOMO become more negative, but also the HOMO electrons shift to the middle oxalate units, improving the antioxidative capability. Furthermore, the interfacial compatibility across the Li‐metal/POE‐F is also improved by the generation of a LiF‐based solid‐electrolyte‐interlayer(SEI). With the trifluoroacetate‐terminated C5‐POE (C5‐POE‐F) as the electrolyte and Li + ‐conducting binder in the cathode, the all‐solid‐state Li/LiNi 0.8 Mn 0.1 Co 0.1 O 2 (NMC811) cells showed significantly improved stability than the counterpart with poly‐ether, providing a promising candidate for the forthcoming all‐solid‐state high‐voltage Li‐metal batteries.

Topics & Concepts

ElectrolyteElectrochemistryCathodeIonic conductivityConductivityAnodeOxalateElectrochemical windowMaterials scienceMetalIonic bondingChemical engineeringFast ion conductorInorganic chemistryChemistryPolymer chemistryIonPhysical chemistryOrganic chemistryElectrodeEngineeringMetallurgyAdvanced Battery Materials and TechnologiesAdvancements in Battery MaterialsAdvanced Battery Technologies Research
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