Li7P3S11solid electrolytes with high lithium-ion conductivity are promising candidates for use in all-solidstate lithium batteries.However,this electrolyte’s poor interfacial compatibility with lithium electrodes cau...Li7P3S11solid electrolytes with high lithium-ion conductivity are promising candidates for use in all-solidstate lithium batteries.However,this electrolyte’s poor interfacial compatibility with lithium electrodes causes unstable cyclability.In this study,in order to address this problem,(100-x)Li7P3S11-xLi2OHBr(x=0,2,5,10,20,30,40,and 50)electrolytes are prepared by a high energy ball-milling technique and heat-treatment process.The resulting(100-x)Li7P3S11-xLi2OHBr(x=2,5,10,20,30,40,and 50)electrolytes provide improved electrochemical performance with good cycling stability and a wide electrochemical window of up to 10 V(vs.Li/Li+).Moreover,these electrolytes have high ionic conductivity of 10-4–10-5S/cm at room temperature.Particularly,the 90Li7P3S11-10Li2OHBr electrolyte displays the highest conductivity of 4.4×10-4S/cm at room temperature as well as improved cyclability.Moreover,90Li7P3S11-10Li2OHBr shows decreased interfacial resistance between the solid electrolyte and cathode electrode,which was revealed by Electrochemical Impedance Spectroscopy(EIS)analysis.The initial discharge capacity of 90Li7P3S11-10Li2OHBr was found to be 135 m Ah/g when used in a In|solid electrolyte|Li(Ni0.6Co0.2Mn0.2)O2 all-solid-state lithium battery(ASSLB).Thus,we can conclude the addition of Li2OHBr into the Li7P3S11results in enhanced electrochemical properties.展开更多
基金supported by Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education (2018R1D1A3B070050296)。
文摘Li7P3S11solid electrolytes with high lithium-ion conductivity are promising candidates for use in all-solidstate lithium batteries.However,this electrolyte’s poor interfacial compatibility with lithium electrodes causes unstable cyclability.In this study,in order to address this problem,(100-x)Li7P3S11-xLi2OHBr(x=0,2,5,10,20,30,40,and 50)electrolytes are prepared by a high energy ball-milling technique and heat-treatment process.The resulting(100-x)Li7P3S11-xLi2OHBr(x=2,5,10,20,30,40,and 50)electrolytes provide improved electrochemical performance with good cycling stability and a wide electrochemical window of up to 10 V(vs.Li/Li+).Moreover,these electrolytes have high ionic conductivity of 10-4–10-5S/cm at room temperature.Particularly,the 90Li7P3S11-10Li2OHBr electrolyte displays the highest conductivity of 4.4×10-4S/cm at room temperature as well as improved cyclability.Moreover,90Li7P3S11-10Li2OHBr shows decreased interfacial resistance between the solid electrolyte and cathode electrode,which was revealed by Electrochemical Impedance Spectroscopy(EIS)analysis.The initial discharge capacity of 90Li7P3S11-10Li2OHBr was found to be 135 m Ah/g when used in a In|solid electrolyte|Li(Ni0.6Co0.2Mn0.2)O2 all-solid-state lithium battery(ASSLB).Thus,we can conclude the addition of Li2OHBr into the Li7P3S11results in enhanced electrochemical properties.
