Abstract

Lithium metal coupled with high voltage cathodes has been extensively investigated to meet the demand for higher energy density batteries. However, only a few electrolytes are compatible with both lithium anode and high voltage LiNi 0.5 Mn 0.3 Co 0.2 O 2 . Pure poly(ethylene oxide) electrolyte shows high-stability against lithium metal but has limited oxidation stability (typically < 3.8 V). Nitrile-based electrolyte with -C≡N groups exhibits excellent electrochemical stability against high voltage electrodes. Here, a novel type of poly(ethylene oxide) based polymer in plastic crystal (succinonitrile) electrolyte is designed to achieve stable cathode/electrolyte and anode/electrolyte interfaces simultaneously through strong intermolecular interactions. Li-Li symmetric cells with the polymer in plastic crystal electrolyte runs stably for 700 h at 1 mA cm −2 . Even with a high cut-off voltage of 4.4 V, the Li// LiNi 0.5 Mn 0.3 Co 0.2 O 2 cell delivers a high discharge capacity of 169 mA h g −1 and a capacity retention of 80% after 120 cycles. Our work highlights development of PEO-based electrolytes with higher energy density by inter-molecular design. • PIPCE shows a high ionic conductivity, wide electrochemical window and low flammability. • Improved electrochemical stability of PIPCE originates from the inter-molecule interaction. • NMC532/PIPCE/Li delivers a capacity of 169 mA h g -1 with 4.4 V cut-off voltage. • Stable SEI and CEI are formed at the electrolyte/electrode interface.

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