The effect of solid electrolyte interface formation conditions on the aging performance of Li-ion cells

The effect of formation temperatures and current densities on the aging performance of LiNi1/3Co1/3Mn1/3O2/artificial graphite Li-ion cells during storage and cycle was investigated using three-electrode electrochemical impedance spectroscopy and charge-discharge experiment. The higher formation temperature at 45 A degrees C decreased the resistance of solid electrolyte interphase (SEI) film and the irreversible capacity loss of Li-ion cells during SEI formation process. After Li-ion cell storage at 60 A degrees C for 10 weeks, the ohmic resistance of the negative electrodes and the irreversible capacity loss of the cells reduced 24% and 7.9%, respectively, accompanied by a significant decrease of SEI film resistance when the formation temperature increased from 25 to 45 A degrees C. The higher temperature at 45 A degrees C may facilitate the transformation of metastable ROCO2Li to stable inorganics to form a stable SEI film. Three hundred cycling tests indicated that the capacity retention of the cell formation at 25 A degrees C was only 87.5%, about 8% less than that of the cell formation at 45 A degrees C. However, the SEI formation current density did not significantly affect the property of SEI film and the irreversible capacity loss of the aged cells.