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1,3-dioxolane (DOL) was originally used to pretreat a lithium metal electrode to improve its interfacial characteristics. Electrochemical impedance spectra (EIS) measurements revealed that,after the DOL pretreatment,the lithium electrode had better interfacial stability during immersion in electrolyte and as repeated charge/discharge cycles. It was proved by SEM that the pretreated one has smoother morphology and less dendrite after repeated charge/discharge cycles. Consequentially,benefiting from the better interface characteristics of the lithium electrode,the rechargeable lithium cell with a DOL-pretreated lithium anode had the obviously enhanced discharging performance and better cyclability.
1,3-dioxolane (DOL) was originally used to pretreat a lithium metal electrode to improve its interfacial characteristics. Electrochemical impedance spectra (EIS) measurements revealed that, after the DOL pretreatment, the lithium electrode had better interfacial stability during immersion in electrolyte and It was proven by SEM that the pretreated one has smoother morphology and less dendrite after repeated charge / discharge cycles. Consequentially, benefiting from the better interface characteristics of the lithium electrode, the rechargeable lithium cell with a DOL- pretreated lithium anode had the obviously enhanced discharging performance and better cyclability.