Mesoporous Ti 4 O 7 Nanosheets with High Polar Surface Area for Catalyzing Separator to Reduce the Shuttle Effect of Soluble Polysulfides in Lithium‐sulfur Batteries

In the effort to accelerate adsorption and catalytic conversion of lithium polysulfides (Li‐PSs) and suppress the shuttle effect of lithium‐sulfur batteries (LSBs), the Ti 4 O 7 nanosheets/carbon material‐modified separator is successfully fabricated to reducing soluble Li‐PSs’ crossover from cathode to anode. The catalyst of mesoporous Ti 4 O 7 nanosheets with O−Ti−O units synthesized at low temperature shows both excellent conductivity and high surface area. The modified separator can serve as a diffusion barrier of Li‐PSs and catalyst for converting soluble low‐chain sulfides into insoluble ones and then remarkably enhance the sulfur utilization and electrochemical performance of the LSB. This work provides a feasible avenue in both design and synthesis of mesoporous catalyst materials for suppressing the shuttle effect of lithium‐sulfur batteries.