Homogenous conduction: Stable multifunctional gel polymer electrolyte for lithium-sulfur batteries

The low sulfur utilization rate and polysulfide shuttle are the main reasons that hinder the practical process of lithium-sulfur batteries. Here, an effective structural engineering strategy of multifunctional gel polymer electrolyte (GPE) by electrospinning was proposed. The HCNF@HPAN-GPE for lithium-sulfur batteries contained halloysite-base carbon nanofibers (HCNF) offered abundant active sites as sulfur fixation layer and halloysitebase polyacrylonitrile (HPAN) provided ion transport channel as ion transport layer. Both layers were abundant in the halloysite nanotubes as "transduction segment" and established the synergistic interface conduction. The HCNF@HPAN-GPE exhibited an ionic conductivity of 8.01 x 10-3 S cm- 1. Therefore, the HCNF@HPANGPE displayed excellent interface compatibility and stabilized lithium deposition/ stripping over 800 h. Meanwhile, it demonstrated an initial discharge specific capacity of 1461.2 mA h g-1 at 0.1 C and an ultra-low capacity attenuation of 0.056 % per cycle of 800 cycles at 1 C. In sum, this study may provide a novel strategy for the effective design of GPE toward the high performance lithium-sulfur batteries.