It's all part of a transformation in our transportation system that's ushering in cleaner rides on land, sea, and air.

Researchers at the Graduate Institute of Ferrous & Eco Material Technology in South Korea have discovered the potential in producing battery cathode materials as more resilient single large particles ...

A team of scientists at UNSW Chemistry have successfully developed an organic material that is able to store protons—and they ...

A research team at Stanford University has recently published a study in Science that suggests that this battery degradation ...

The process includes cathode immersion in a replenishing solution. Scientists make breakthrough with simple, cost-effective ...

and a positive electrode (the cathode) that are separated by an electrolyte, which is generally a liquid solution embedded in a felt (the separator). Electrochemical charge-transfer reactions ...

Using chemical component of betadine, researchers at Monash University have improved charging rates and power density of the ...

University of Waterloo researchers have made a key breakthrough in developing next-generation batteries that are made using ...

Charge injection creates oxidized and reduced forms of the organic semiconductor molecules near the anode and cathode, respectively, and the different optical properties of these species have been ...

While much of the focus for next-generation batteries has been on improving electrode materials, the electrolyte has often ...

"The battery module energy density reaches 340 watt-hours per kilogram, enabling stable operations in a wide temperature ...