Composite polymer electrolyte membranes supported by non-woven fabrics for lithium-ion polymer batteries

Since marketing in 1999, lithium-ion polymer batteryhas attracted great attention with its various merits such aslight weight, high energy density and good safety. Poly-mer electrolyte membrane, the key material for lith-ium-ion polymer battery, greatly influences the electro-chemical performances, and it is always among the fo-cuses of the lithium-ion polymer battery research field toprepare polymer gel electrolyte membranes of high ionicconductivity and good electrochemical stability[1]. …

Composite polymer electrolyte membranes supported by non-woven fabrics for lithium-ion polymer batteries

Poly(vinylidene fluoride-co-hexafluoropropylene) (PVDF-HFP) is one of the most popular polymers for polymer electrolyte membranes because of its excellent operating characteristics and superior electrochemical properties. The electrochemical performances of polymer electrolyte membrane can be enhanced by evenly dispersing nano-meter SiO₂ particles in the polymer. In this paper, non-woven fabrics were immersed in the mixed solution of PVDF-HFP/ SiO₂/butanone/butanol/plasticizer, and then dried in a vacuum oven to remove the solvents and the plasticizer and to make porous composite polymer electrolyte membranes. The prepared composite membranes supported by non-woven fabrics boast good mechanical strength and excellent electrochemical properties: the electrochemical stability window is 4.8 V vs. Li⁺/Li, and the ionic conductivity is 3.35×10⁻⁴ S/cm (around 60% of that of a common PE membrane) at room temperature. The lithium-ion polymer battery assembled by the composite membrane exhibits high rate capability and excellent cycling performance.