Electric vehicles have come a long way, but let’s be real—they still have their hangups: “range anxiety,” long charging ...

Over $150 billion in investment and 5x BESS growth anticipated by 2030 are driving battery manufacturers to pursue faster, ...

Molecular engineering of a zinc battery co-solvent improves plating stability, suppresses side reactions, and delivers near-perfect efficiency through a single functional group substitution.

Instead of keeping the battery inside a reinforced structure, a new prototype system throws the entire pack out of the car at ...

A paper from the laboratories of Meng and Ong, published recently in Joule, helps rectify that problem. Their research raises ...

Zacharie Jehl Li-Kao, a researcher in the Department of Electronic Engineering at the Polytechnic University of Catalonia (UPC), has developed Soley, an open-access simulation software designed to ...

Using electrochemical impedance spectroscopy (EIS) techniques to help obtain battery working conditions like SOH and SOC.

Stellantis claims it has found a way to deliver more driving range and higher energy efficiency in run-of-the-mill electric cars. By combining all the different components that usually sit outside an ...

Discover how Vijaychandar Sanikal’s virtual thermal modeling boosts electric vehicle efficiency, range, and safety, setting ...

The researchers will work to develop “scalable, robust, and accurate simulation capabilities for the complex, multiscale ...

Sila has been building the facility on Moses Lake, Washington, for nearly two years. Now, it's poised to start volume ...

The past few months have seen announcements of prototype electric vehicles that don’t use inverters to produce three-phase ...