A joint research team featuring Professor Yongmin Lee from the Department of Energy Science & Engineering at DGIST and ETRI announced on the 11th (Friday) that they have developed high-energy-density, ...

Researchers from POSTECH and Sogang University developed a functional polymeric binder for stable, high-capacity anode material that could increase the current EV range at least 10-fold over current ...

After 50 cycles, 18650 batteries with GEN3 silicon-based material show a 40% capacity improvement over graphite, 25% over GEN1, and 15% over GEN2, with no noticeable degradation [1]. This announcement ...

The current crop of battery technology seems unable to keep up with the increasing demands we are placing on our ever-growing collection of mobile devices. Which is why research into next generation ...

At TopSpeed, William Clavey is Editor-at-Large, where he focuses on authority and exclusive content, reviews, news articles, features, and opinion pieces all while sharing his passion for everything ...

WASHINGTON — While copper, lithium, nickel and cobalt often grab headlines when it comes to battery metals, there is an array of other minerals important to the energy transition away from fossil ...

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

You probably use batteries every single day, but do you actually understand how they work? Koffi Pierre Yao, a new assistant professor of mechanical engineering at the University of Delaware, is ...

For years, scientists and engineers predicted that lithium-ion batteries would get a boost if they could just add more silicon. In the lab, the prediction held, but only for a short period of time.

Just after sunrise on a cloudless morning last June, two propellers started spinning on a slender aircraft sitting on a runway in the New Mexico desert. Chocks securing bicycle-sized wheels were ...