But this week, researchers described a lithium-sulfur battery that still has over 80 percent of its original capacity after 25,000 charge/discharge cycles. All it took was a solid electrolyte that was ...

a byproduct formed as a result of the reaction between sodium and sulfur. This byproduct keeps moving back and forth between the two electrodes, reducing battery performance and capacity (also ...

The carbon-nanovessels enclosing the sulfur not only increase the service life of sodium-sulfur batteries, but also their storage capacity: as the sulfur is fixed in the cage, it is almost completely ...

The carbon-nanovessels enclosing the sulfur not only increase the service life of sodium-sulfur batteries, but also their storage capacity: as the sulfur is fixed in the cage, it is almost completely ...

Large-scale batteries are essential to address this issue, with sodium-sulfur batteries emerging as a viable solution due to their numerous advantages.

Learn about the latest developments in solid-state batteries for electric vehicles (EVs). Discover the promising materials ...

Finding a better material to hold the lithium could result in an overall lighter and more compact battery. One of the more promising materials is sulfur, due to its quality, abundance and low cost.

This breakthrough could make sodium-sulfur ... carbon cages also boost the battery’s storage capacity by making nearly all the sulfur available for the chemical reactions. The new cathode ...

TL;DR: Recent advancements in lithium-sulfur battery technology have been reported ... The carbon structure, formed by the reaction of magnesium with nitrogen in ZIF-8 at high temperatures ...