Electronegative Co-WO<sub>2</sub> Interface with Li<sup>+</sup> Pump Effects for Efficient Polysulfide Conversion in High-Performance Li-Sulfur Batteries
Ran Zhu, Zihe Wu, Chao He, Shiqi Li, Shiqi Li, Xu Liu, Min Wu, Mao Wang, Rui Yan, Shuang Li, Shuang Li
Abstract
Catalyzing the polysulfide conversion process has become an effective paradigm for alleviating the shuttle effect and realizing reliable Li–S batteries. Although great improvements in designing highly active polysulfide catalysts have been achieved, the transfer of Li + at the catalytic interface, which has a great influence on the reversible redox of sulfur, has not been addressed. Herein, we proposed the multimodal strategy of catalysts confers atomic Co active sites on WO 2, where the electronegative interfacial O atoms can act as Li + pump and assist the rapid migration of Li + in the electrolyte to polysulfide anchored at the Co sites during the discharge process and reduce oxidation energy barrier of Li 2 S during the charge process, thus facilizing the lithiation/delithiation of polysulfides. Experimental and theoretical results reveal that more Li + ions can be gathered around Co sites, and the length of Li–S bonds in Li 2 S can be reduced in the Co-WO 2 catalysts, implying the efficient dual-direction conversion of polysulfides. Therefore, the cell assembled with Co-WO 2 exhibits long-term cycle stability (0.038% per cycle) at 1.0 C.