Researchers developed a soluble catalyst for lithium-air batteries, reducing overpotential and preventing side reactions. The ...

1,3-dimethylimidazolium iodide significantly enhances lithium-air battery efficiency and longevity by optimizing electrochemical reactions and anode stability.

Lithium-air batteries have the potential to outstrip conventional lithium-ion batteries by storing significantly more energy at the same weight. However, their high-performance values have thus far ...

Most batteries are rigid and incompatible with water. But people work and play in oceans and estuaries, and they could ...

Researchers develop a catalyst boosting lithium-air batteries with 0.52V, 960-hour stability, and 95.8% efficiency, advancing energy storage.

A study reveals carrageenan as an effective binder for lithium-sulfur batteries, enhancing performance with eco-friendly, ...

Researchers report in ACS Applied Materials and Interfaces a yarn-like battery prototype that works when immersed in seawater ...

A team from the Swiss Federal Laboratories for Materials Science and Technology (Empa) has developed a 3D-printed battery.

SES AI's novel electrolyte molecule, driven by AI technology, is revolutionizing the battery market with its safety and ...

Dr. Park Jun-woo's team successfully suppresses the dissolution of lithium polysulfides using CNT and oxygen functional ...

Scientists have developed a new hydrogel electrolyte that can significantly enhance the performance of sodium-zinc hybrid ion ...