The conventional lithium-ion battery technology relies
on the liquid
carbonate-based electrolyte solution, which causes excessive side
reactions, serious risk of electrolyte leakage, high flammability,
and significant safety hazards. In this work, phosphonate-functionalized
imidazolium ionic liquid (PFIL) is synthesized and used as a gel polymer
electrolyte (GPE) to replace the organic carbonate-based electrolyte
solution. The as-prepared ionic liquid-based gel polymer electrolyte
(IL-GPE) shows low crystallinity, flame retardance, and excellent
electrochemical performance. Thanks to the fast double channel transport
of lithium ions in the IL-GPE electrolyte, a high ionic conductivity
of 0.48 mS cm–1 and a lithium-ion transference number
of 0.37 are exhibited. Symmetrical lithium cells with IL-GPE retain
stable cycling even after 3000 h under 0.1 mA cm–2. IL-GPE exhibits good compatibility toward lithium metal, yielding
excellent long-term electrochemical kinetic stability. IL-GPE induces
the formation of a uniform and robust SEI layer, inhibiting the growth
of lithium dendrites and improving the rate performance and cycle
stability. Furthermore, Li/LiFePO4 cells exhibit a specific
capacity of 63 mA h g–1 after 150 cycles at 5.0
C, with a capacity retention of 90.2%. It is foreseen that this GPE
is a promising candidate to enhance the safety of high-performance
lithium metal batteries.