Researchers found a way to extract 92% of critical metals from old EV batteries. The process uses less energy and generates ...

Unlike regular lithium-ion batteries, which use graphite as the anode (the negative side), lithium-metal batteries use pure lithium, which has ten times the capacity. That means much more energy ...

A research team in South Korea has developed a breakthrough transfer printing technology that forms protective thin layers on ...

Researchers from the University of Texas at Austin have created a stick-on thin flexible stretchy electrode array that can pick up EEG signals from the ...

A research team in South Korea has developed a breakthrough transfer printing technology that forms protective thin layers on lithium metal ...

Dr. Jungdon Suk’s team (Advanced Battery Research Center) at the Korea Research Institute of Chemical Technology (KRICT) has successfully transferred hybrid protective layers composed of solid ...

“LPBF is ideal for biobatteries because it enables high-precision, customizable 3D structures with complex geometries, ...

Engineering innovations generally require long hours in the lab, with a lot of trial and error through experimentation before zeroing in on the best solution.

Solid state batteries could address critical issues facing energy storage and electric vehicles, including safety, charge ...

UK company Superdielectrics says its polymer technology could make batteries cheaper and easier to recycle, but its energy ...

Flexible, stretchable electrodes give more degrees of freedom to battery design-in.

The growing use of small, portable and wearable electronic devices enhanced the need of micro devices for their feeding, highly customizable to perfectly fit in. For such purpose the research is ...