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

Single‐atom metal catalysts (SACs) are used as sulfur cathode additives to promote battery
performance, although the material selection and mechanism that govern the catalytic …

Rapidly increasing markets for electric vehicles (EVs), energy storage for backup support
systems and high-power portable electronics demand batteries with higher energy densities …

Improving kinetics of solid‐state sulfide conversion in sulfur cathodes can enhance sulfur
utilization of metal‐sulfur batteries. However, fundamental understanding of the solid‐state …

Fingerprinting sulfur speciation in aprotic electrolytes is a key to understand fundamental
chemistry and design well-performing lithium–sulfur (Li–S) batteries. Lithium polysulfide …

Due to the high theoretical capacity and low reduction potential, metallic lithium is a
promising anode material for the next generation of high‐energy‐density batteries …

Lithium–sulfur batteries present unique polysulfide chemistry and exhibit a high theoretical
energy density of 2600 W h kg− 1. However, soluble lithium polysulfides (LiPSs) tend to …

New rechargeable batteries with high energy density and low cost have been intensively
explored, but their commercialization still faces multiple challenges involving battery …

Lithium-sulfur batteries (LSBs) are promising candidates for next-generation cost-effective
and high-energy-density rechargeable batteries. However, cathodes, anodes, and …

In this study, Erdos (ED) coal with high inorganic sulfur content was selected to investigate
the absorbed effects of H 2 S on the perfect or defective surfaces of CaO (0 0 1). Pyrolysis …