One of the biggest issues facing the solid-state lithium-based batteries we all depend upon is of the performance of the anode; the transport of lithium ions and minimization of dendrite formation are ...

In the midst of the energy transformation taking place around the world, lithium-ion batteries stand as pivotal components for both electric vehicles (EVs) and energy storage systems, demanding ...

Solidion files multiple patent applications on a new process to produce graphene ball-hosted silicon anode materials Industry-leading EV OEMs have concluded that silicon anode is required to drive EV ...

Sodium-ion batteries use more abundant raw materials but don’t currently perform as well as those made with lithium.

A research team presented an analysis protocol to evaluate silicon cathode materials applicable to commercialized batteries. In a groundbreaking review published in Nature Energy, Professor Jaephil ...

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.

If you’re using a large battery for a specialized purpose—say grid-scale storage or an electric vehicle—then it’s possible to tweak the battery chemistry, provide a little bit of excess capacity, and ...

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 ...

Solid-state batteries are often described as the "holy grail" of batteries.

Lithium-ion batteries are what make modern electric vehicles possible. This Engineering Explained video shows how they work, and how they're manufactured. The video is sponsored by LG Energy Solution, ...