U.S. scientists used density functional theory to reveal how sodium ions are stored in nanoporous carbon anodes for sodium-ion batteries, identifying dual ionic and metallic storage mechanisms within ...

Craig has worked in automotive media for nearly 20 years, producing content for publications ranging from Autoline and AutoGuide to Roadshow by CNET and EV Pulse. Aside from writing, he’s also ...

Lithium-ion batteries have transformed everything from consumer electronics to electric vehicles and energy storage. But to power the next wave of tech — from planes to smartphones — they need to get ...

Anode-free technology could boost EV battery capacity. Potential 90-mile increase in range of Tesla Model Y. Panasonic is also looking to reduce the amount of nickel. Panasonic announced that it’s ...

Glass fibers from retired wind turbine blades can be converted into high-capacity silicon-carbon battery anodes, turning a ...

Japanese battery innovators are racing to solve the slow‑charging bottleneck that still frustrates drivers and device makers, ...

Research at the Andlinger Center for Energy and the Environment at Princeton University has found a new way to make ...

From the beginning of the electrification evolution, the U.S. has struggled to keep up with the Chinese battery giants, and has also fallen behind Europe in some battery production and adoption areas.

IN THEir QUEST to build a better battery, researchers have blazed a trail through the elements of the periodic table. The earliest prototype cells ran on nickel and cadmium; successors have used ...