Materials science ain’t easy. And it’s especially difficult when it comes to the batteries that power our smart home, wearable, and mobile devices; more specifically, lithium-ion (Li-ion) batteries.

A “hybrid” anode material shows potential to improve the capacity and longevity of lithium-ion batteries. An exclusive interview with Electronic Design reveals details about the material, developed at ...

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Alternative battery technologies, hybrid energy storage, and the use of AI-based solutions drive advances in battery energy ...

However, Li-ion batteries face performance and longevity challenges. Capacity loss stems from side reactions at the electrode–electrolyte interface, reducing cycle life. Thermal instability and ...

Lithium- (Li-) based products have risen significantly in market acceptance over various energy storage applications because of their superior capacity and lighter mass. Today, several differing ...

One of materials science’s big challenges is to create and find novel materials that satisfy global objectives like Net Zero. Image represents the lithium ions (in blue) moving through the structure.

Since late 2024, humanoid robots and lithium-ion <a href="/products/185/Electronic-Components">batteries have repeatedly appeared together in industry headlines. However, the vast majority of ...

ATOKA, Okla.--(BUSINESS WIRE)--Green Li-ion, a lithium-ion battery recycling technology company, announced the launch of its first commercial-scale installation to produce sustainable, battery-grade ...

An innovative approach to battery materials could bring sodium-ion energy density and charging speeds far closer to those of ...