Abstract
The practical application of lithium metal battery has been impeded by the uneven lithium deposition and lithium dendrite growth. In this work, the tin sulfide (SnS2) quantum dots (QDs) are dispersed in the electrolyte and used as “electrolyte additive” to help constructing the high-performance lithium metal anode. Prior to lithium deposition, the SnS2 QDs were reduced to satisfactory interface components Li2S and lithiophilic LiSn alloy during the activation process. The as-formed Li2S and LiSn alloy can stabilize the interface structure, facilitate efficient ion transportation, and induce uniform lithium nucleation. As expected, the Li//Cu half-cell using electrolyte containing SnS2 QDs shows obviously improved coulombic efficiency and symmetric cell cyclic performance, which can sustain for longer than 900 h at a current density of 1.0 mA cm−2 with ultra-low overpotential of 10 mV. Moreover, the full cell using LiFePO4 cathode exhibited both excellent rate capability and cycling performance, i.e., capacity retention of 96.7 % after 400 cycles at 1.0 C.
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