A CF4 plasma functionalized polypropylene separator for dendrite-free lithium metal anodes

Lithium metal is recognized as a promising anode material for next-generation high-energy-density batteries, but uncontrollable lithium dendrites inhibit their further applications. In this paper, fluorine-containing functional groups were grafted on a commercial polypropylene (PP) separator by a simple and efficient plasma functionalization technique. The grafted polar groups enhance the affinity of the PP separator for Li-ions, thus resulting in improved wettability and ion conductivity as well as an enhanced lithium-ion transference number of the separator. Moreover, the introduced fluorine-containing functional groups participate in the formation of a LiF-rich solid electrolyte interface (SEI) film, which regulates the uniform deposition of lithium ions and inhibits lithium dendrite growth. As a result, Li||Li symmetric batteries equipped with fluorinated PP separators exhibit a long lifespan of nearly 7000 h (1 mA cm(-2), 1 mA h cm(-2)) with a low overpotential of 48 mV. This work introduces a simple method to induce the formation of a LiF-rich SEI film, which can be extended to a variety of energy storage systems and provides new routes for the construction of high-performance energy storage technologies.

Automated summary

In this paper, fluorine-containing functional groups were grafted on a commercial polypropylene (PP) separator, resulting in improved wettability and ion conductivity, as well as the formation of a LiF-rich solid electrolyte interface (SEI) film. This enhanced the stability and lifespan of Li||Li symmetric batteries with a low overpotential.