摘要
Metal-sulfur electrochemistry represents a promising energy storage technology due to the natural abundance and unparalleled theoretical specific capacity of 1675 mAh g^(-1)of sulfur based on two-electron redox reaction(S^(0)■S^(2-)).Commercially viable metal-sulfur batteries(MSBs)are hindered by sluggish sulfur conversion kinetics,which reduce the utilization efficiency of sulfur and lead to polysulfide shuttling.Single-atom catalysts(SACs)exhibit specific catalytic activity,a high atomic utilization ratio,and flexible selectivity,and are considered exceptional electrocatalysts for addressing the intractable challenges encountered by the MSBs.This review summarizes the recent progress in SACs for boosting the sulfur electrochemistry in MSBs,focusing on sulfur host materials,modified separators and functional interlayers,and analyzes the in-depth mechanisms of SACs.Moreover,the correlation between the coordination environments and the intrinsic activity of SACs is discussed.Finally,the main challenges and potential research directions of SACs for high-energy-density and long-life MSBs are outlined.This study provides significant guidance for constructing novel SACs that can accelerate the sulfur conversion kinetics in MSBs.
基金
financial support from the National Natural Science Foundation of China(No.22379001 and 22309003)
the Natural Science Research Project of Anhui Province Education department(No.2022AH030046)
the Top Young Talents of Anhui University of Technology,the Young Scholars of the Introduction and Education of Talents in Anhui Province,and the Scientific Research Foundation of Anhui University of Technology for Talent Introduction。
