Mitigating self-discharge and improving the performance of Mg-S battery in Mg[B(hfip)4]2 electrolyte with a protective interlayer
2021
Magnesium-sulfur (Mg-S) battery is receiving much research attention because of its high theoretical energy density, low-cost and sustainable electrode materials. However, the major issues such as self-discharge, low sulfur utilization in cathode and magnesium anode passivation severely hamper the battery operation. In this study, spontaneous magnesium polysulfide formation is observed in the Mg[B(hfip)4]2, Mg(TFSI)2-MgCl2 electrolytes, which leads to severe self-discharge of Mg-S cells. Interestingly, unlike in lithium-sulfur battery, these magnesium polysulfides forms as crystalline magnesium polysulfide on the magnesium foil, which could escalate the self-discharge of the cells. The incorporation of graphene-polyaniline coated carbon cloth (GPN-PANI@CC) as a protective interlayer which effectively adsorbs the polysulfide and inhibit the self-discharge of Mg-S cells in the non-corrosive Mg[B(hfip)4]2 electrolyte. This interlayer not only improve the polysulfide retention in cathode but also the capacity values in Mg[B(hfip)4]2 electrolyte compared to Mg(TFSI)2-MgCl2 electrolyte. The cells with interlayer show the initial capacity of 1121 mAh g-1 and maintained a capacity of 500 mAh g-1 after 150 cycles with Coulombic efficiency of > 99%. This cell design strategy provides a promising approach for improving metal-sulfur batteries.
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