Sluggish reaction kinetics and severe shuttling effect of lithium polysulfides seriously hinder
the development of lithium‐sulfur batteries. Heterostructures, due to unique properties, have …

Rechargeable metal-sulfur batteries are considered promising candidates for energy
storage due to their high energy density along with high natural abundance and low cost of …

The catalytic conversion of lithium polysulfides is a promising way to inhibit the shuttling
effect in Li–S batteries. However, the mechanism of such catalytic systems remains unclear …

Single-atom catalysts have been paid more attention to improving sluggish reaction kinetics
and anchoring polysulfide for lithium–sulfur (Li–S) batteries. It has been demonstrated that d …

Lithium–sulfur batteries are one of the most promising alternatives for advanced battery
systems due to the merits of extraordinary theoretical specific energy density, abundant …

The ever-increasing demand for flexible and portable electronics has stimulated research
and development in building advanced electrochemical energy devices which are …

The lithium–sulfur battery, one of the most potential high-energy-density rechargeable
batteries, has obtained significant progress in overcoming challenges from both sulfur …

The serious shuttle effect and intrinsically sluggish oxidation–reduction reaction kinetics of
polysulfides severely hinder the practical commercialization of lithium–sulfur (Li–S) …

The electrolyte‐wettability of electrode materials in liquid electrolytes plays a crucial role in
electrochemical energy storage, conversion systems, and beyond relied on interface …

Lithium–sulfur batteries (Li–S) are recognized as the next generation of secondary batteries
due to their satisfactory theoretical specific capacity and energy density. However, a series …