Download This PaperHigh-Performance Pvdf/Sepiolite Composite Separator for Li-Ion Batteries
18 Pages Posted: 9 May 2025
Abstract
PVDF has a relatively high polarity leading to better affinity with electrolyte, and its relatively high dielectric constant promotes the dissociation of lithium ions. Sepiolite has unique structures and physical properties, which can enhance the specific surface area and thermal stability of separators. In this work, the PVDF/sepiolite composite separator is prepared by electrospinning technology. Benefiting from the high polarity and dielectric constant of PVDF and the special structure of sepiolite, the composite separator reveals excellent electrolyte adsorption and electrochemical performance. With a high ionic conductivity (3.04×10-3 S·cm-1) and lithium-ion transference number ([[EQUATION]]= 0.781), it shows excellent rate capacity (110 mAh g-1 even at 5 C) and cycle performance (~165 mAh g-1 after 250 cycles at 0.5 C with a capacity retention of 99%). The thermal stability and electrochemical performance of the composite separator is enhanced by adding the appropriate amount of sepiolite.
Keywords: PVDF, Sepiolite, Li-ion batteries, Composite separator, Thermal stability
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