Multifunctional Separator Enables High-Performance Sodium Metal Batteries in Carbonate-Based Electrolytes

ADVANCED MATERIALS(2024)

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摘要
Sodium metal has become one of the most promising anodes for next-generation cheap and high-energy-density metal batteries; however, challenges caused by the uncontrollable sodium dendrite growth and fragile solid electrolyte interphase (SEI) restrict their large-scale practical applications in low-cost and wide-voltage-window carbonate electrolytes. Herein, a novel multifunctional separator with lightweight and high thinness is proposed, assembled by the cobalt-based metal-organic framework nanowires (Co-NWS), to replace the widely applied thick and heavy glass fiber separator. Benefitting from its abundant sodiophilic functional groups and densely stacked nanowires, Co-NWS not only exhibits outstanding electrolyte wettability and effectively induces uniform Na+ ion flux as a strong ion redistributor but also favors constructing the robust N,F-rich SEI layer. Satisfactorily, with 10 mu L carbonate electrolyte, a Na|Co-NWS|Cu half-cell delivers stable cycling (over 260 cycles) with a high average Coulombic efficiency of 98%, and the symmetric cell shows a long cycle life of more than 500 h. Remarkably, the full cell shows a long-term life span (over 1500 cycles with 92% capacity retention) at high current density in the carbonate electrolyte. This work opens up a strategy for developing dendrite-free, low-cost, and long-life-span sodium metal batteries in carbonate-based electrolytes. A multifunctional separator is designed for sodium metal batteries (SMBs) with the carbonate-based electrolyte. Thanks to abundant functional groups and solid mechanical strength, the separator can enable high-performance SMBs with reduced electrolyte volume. Besides, the lightweight, thinness, and high-utilization electrolyte properties of the separator can further increase mass and volumetric energy densities.image
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关键词
carbonate electrolytes,metal-organic frameworks nanowires,separators,sodium metal batteries
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