A lithium-ion battery cell contains two electrodes: a positive end and a negative end. When the battery is charged, positively charged lithium ions move to the negative side, where they are stored in ...

As electric vehicles keep getting more popular, the demand for batteries to power them increases. Scientist makes groundbreaking discovery that could change the future of EV batteries: 'Manufacturers ...

Factorial Energy and Stellantis have validated a full-size solid-state battery cell that they describe as a potential ...

Explore the solid state vs lithium ion debate in this detailed battery technology comparison, highlighting differences in energy density, longevity, safety, and future energy storage potential.

Solid-state batteries have long been positioned as the holy grail of electric vehicle technology. They promise dramatically ...

Traditional EV cells use a liquid or gel electrolyte, which is highly-flammable. So why haven’t we made the switch to ...

The steady rise of electric vehicles and renewable energy systems has pushed batteries to the limit. With cars, drones, and even global grids relying ever more on rechargeable cells, battery ...

EV batteries are ready to undertake the next step in material technology, and a lesser-known manufacturer might be the first ...

It’s the beginning of a “dual chemistry era” as sodium-ion batteries have overcome all hurdles to enter mass production. ​ ...

Chinese battery giant CATL and automaker Changan have unveiled the world’s first passenger car ...

Electric vehicles (EV) seem to be the way of the future. They are climate friendly, and they are cheaper overall than gas-powered vehicles. One thing that concerns some prospective and current owners, ...

For decades, the automotive world has been dominated by internal combustion engines, with oil giants holding the reins. However, over the past decade, the electric vehicle (EV) revolution has ...