Progresses and Perspectives of Carbon‐Free Metal Compounds‐Modified Separators for High‐Performance Lithium‐Sulfur Batteries

Abstract Lithium‐sulfur batteries (LSBs) have the advantages of high theoretical specific capacity, excellent energy density, abundant elemental sulfur reserves. However, the LSBs is mainly limited by shuttling of lithium polysulfides (LiPSs), slow reaction kinetics of sulfur cathode. For solving the above problems, by developing high‐performance battery separators, the reversible capacity, Coulombic efficiency (CE) and cycle life of LSBs can be effectively enhanced. Carbon‐free based metal compounds are expected to be highly efficient separator modifiers for a new generation of high‐performance LSBs by virtue of superior chemical adsorption capacity, strong catalytic properties and excellent lithophilicity to a certain extent. They can give play to the synergistic effect of their “adsorption‐catalysis” sites to accelerate the redox kinetics of LiPSs, and their good lithophilicity can accelerate the Li + transport kinetics, thus showing more remarkable electrochemical performances. However, a comprehensive summary of carbon‐free metal compounds‐modified separators for LSBs is still lacking. Here, this review systematically summarizes the researching progresses and performance characteristics of carbon‐free‐based metal compounds modified materials for separators of LSBs, and summarizes the corresponding mechanisms of using carbon‐based separators to enhance the performance of LSBs. Finally, the review also looks forward to the prospects of LSBs using carbon‐free metal compounds separators.