液体电解液改性石榴石型固体电解质与锂负极的界面

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池上森¹(

), 姜益栋¹, 王庆荣¹, 叶子威¹, 余凯¹, 马骏¹, 靳俊³, 王军¹, 王朝阳², 温兆银³, 邓永红¹(

)

The liquid electrolyte modified interface between garnet-type solid-state electrolyte and lithium anode

Shangsen CHI¹(

), Yidong JIANG¹, Qingrong WANG¹, Ziwei YE¹, Kai YU¹, Jun MA¹, Jun JIN³, Jun WANG¹, Chaoyang WANG², Zhaoyin WEN³, Yonghong DENG¹(

)

图7. (a) Li/LE-LLZTO-LE/Li对称电池的构型示意图；(b) Li/LE-LLZTO-LE/Li对称电池在0.05 mA/cm²和0.1 mA/cm²的恒流循环性能；(c) 循环前Li/LE-LLZTO-LE/Li对称电池在不同温度下的EIS图；(d) 循环后 Li/LE-LLZTO-LE/Li对称电池在不同温度下的EIS图；(e) 对称电池循环前后石榴石电解质与锂金属(Li/LE/LLZTO)在不同温度下的面电阻比较

Fig. 7. (a) schematic diagram of Li/LE-LLZTO-LE/Li symmetric battery configuration; (b) galvanostatic cycling performance of Li/LE-LLZTO-LE/Li symmetric battery at 0.05 mA·cm^-2 and 0.1 mA·cm^-2; (c) Nyquist plots of Li/LE-LLZTO-LE/Li symmetric battery at different temperatures before cycle; (d) Nyquist plots of Li/LE-LLZTO-LE/Li symmetric battery at different temperatures after cycle; (e) comparison of areal specific resistance of garnet electrolyte and lithium metal (Li/LE/LLZTO) at different temperatures before and after symmetric battery cycle