Researchers have developed a new hydrogel electrolyte that, combined with a Prussian blue cathode, enhances sodium-zinc ...

As a promising candidate for large-scale energy storage, aqueous zinc batteries (AZBs) have faced a stubborn hurdle in the ...

Lithium-air batteries, known for their potential to store far more energy than conventional lithium-ion batteries, have ...

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

Researchers have developed an innovative hydrogel electrolyte that dramatically enhances the performance of sodium-zinc hybrid ion batteries. This breakthrough material offers exceptional ionic ...

A research team at the Paul Scherrer Institute PSI has developed a new sustainable process that can be used to improve the ...

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

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

Lithium-air batteries have the potential to store much more energy than the lithium-ion batteries we use today, making them ideal for electric vehicles and other high-power needs. However, their ...