There are materials that can store even more lithium than silicon; a notable example is sulfur. But sulfur has a tendency to react with itself, producing ions that can float off into the electrolyte.

An international team of engineers and materials scientists has developed a lithium-sulfur battery capable of retaining 80% of its charge capacity after 25,000 cycles. Their paper is published in the ...

The development of large-area lithium-sulfur battery prototypes at KERI marks a significant step towards practical applications in energy storage and mobility.

Chinese and German researchers have announced a significant breakthrough in lithium-sulfur battery technology, demonstrating improved stability and performance. According to their study, published ...

Lithium-sulfur battery retains 80 percent charge after 25,000 cycles Revolutionary battery structure enhances longevity and fast charging Study presents new electrode design for better energy storage ...

By carefully managing the additives’ interaction with sulfur compounds, researchers successfully created an improved interface between the cathode and electrolyte, enabling smoother lithium-ion ...

Dr. Park Jun-woo's team at KERI's Next Generation Battery Research Center has overcome a major obstacle to the commercialization of next-generation lithium–sulfur batteries and successfully developed ...

TL;DR: Recent advancements in lithium-sulfur battery technology have been reported by two independent research teams, each tackling key challenges in commercializing these energy storage devices.

Lithium-sulfur (Li-S) batteries could finally give your devices and EVs the kind of battery life we’ve all been dreaming about. For years, these batteries have been touted as a game-changer ...

Researchers in a South Korean battery lab have developed a doped material that has unlocked a lithium-sulfur pack capable of fully charging in 12 minutes, per details published by Tech Xplore. It's an ...