A team of chemical and biomolecular engineers, physicists and battery specialists affiliated with several institutions in the ...

A team led by UC Berkley scientists have developed a flexible lithium-ion battery that withstands stabs, bends, and stretches ...

"This could significantly lower the environmental footprint of lithium production." Scientists uncover unexpected use for EV ...

The battery built by his team endured 500 complete charge cycles—about as many as the batteries in most smartphones are ...

A multidisciplinary team at the University of California, Berkeley, the Georgia Institute of Technology and the Hong Kong ...

As the world moves toward renewable energy, there's a growing need for effective ways to store electricity. Renewable sources ...

An aqueous battery uses a water-based electrolyte to move ions from one ... Of course, these batteries likely won’t completely replace lithium ion batteries especially in things like EVs due ...

In a step to advancing the lithium-ion battery technology, a research team led by Prof. Dongwook Han from (South Korea) ...

Lithium-ion batteries use a liquid electrolyte medium ... Finally, these batteries also use an aqueous electrolyte (water) instead of a flammable organic liquid. While promising, we’re still ...

A research team has developed a technology that dramatically enhances the stability of ultra-thin metal anodes with a ...

As the world transitions from fossil fuels to clean energy storage systems, lithium-ion batteries (LIBs) have become ...

Unlike lithium-ion batteries that use flammable electrolytes, proton batteries’ aqueous electrolytes enhance safety and environmental friendliness. Professor Zhao explained, “In lithium-ion ...