High-performance Li-S batteries could play a transformative role in renewable energy storage systems, enabling efficient capture of intermittent sources.

Lithium-ion (Li-ion) batteries ... into polysulfide compounds—composed of sulfur atom chains—some of which can dissolve in the electrolyte. Because of this solubility, a "shuttling" effect ...

Lithium-ion (Li-ion) batteries ... polysulfide compounds — composed of sulfur atom chains — some of which can dissolve in the electrolyte. Because of this solubility, a “shuttling ...

Image Credit: Argonne National Laboratory/Guiliang Xu Lithium-ion (Li-ion) batteries ... into polysulfide compounds, which are made up of chains of sulfur atoms, some of which dissolve in the ...

TL;DR: Recent advancements in lithium-sulfur ... to conventional batteries under rapid charging conditions. Furthermore, the nitrogen doping effectively suppressed lithium polysulfide migration ...

One of the main issues with lithium-sulfur (Li-S) batteries is that they cannot be recharged enough times to make them commercially viable. This is due to the formation of lithium polysulfides ...

Researchers from Fujian Normal University have developed a novel dual salt-based quasi-solid polymer electrolyte for room-temperature Na-S batteries. This innovative electrolyte effectively mitigates ...

Sodium-sulfur (Na-S ... the electrode/electrolyte interfaces and suppresses the polysulfide shuttle effect in room-temperature Na-S batteries. Through in situ polymerization, this electrolyte ...

Lithium-sulfur (Li-S) batteries could finally ... One of the most important fixes is eliminating the polysulfide shuttle effect. The solid electrolyte acts as a physical barrier, keeping the ...