A researcher at the University of Wisconsin-Madison has developed a groundbreaking computational model that provides new ...

A common lithium salt has revealed new possibilities for manufacturing cheaper, longer-lasting battery materials.

A new computational model developed by mechanical engineers has helps to explain the mechanisms that trigger lithium plating, ...

A multidisciplinary team at the University of California, Berkeley, the Georgia Institute of Technology and the Hong Kong ...

Fast-charging batteries are everywhere these days—in our phones, laptops, and electric cars. While they’re convenient, they ...

Publicly reported fire incidents at waste and recycling facilities also hit 398, a new high since Fire Rover began compiling ...

An overview of the thermal safety of silicon–carbon anodes is conducted to identify the determinants of material reactivity ...

The model reveals how lithium plating starts during fast charging, offering insights that could lead to safer, longer-lasting ...

MADISON — Fast-charging lithium-ion batteries are ubiquitous ... “From these results, I created a diagram that provides physics-based guidance on strategies to mitigate plating.

Case in point: Google announced late last month that it has installed 100 million lithium-ion cells across its data ... s rippling through the world. Batteries are everywhere, and thanks to ...

Scientists have discovered a way to recycle nearly 100 per cent of the materials within lithium-ion batteries. The eco-friendly method can help address the urgent need to deal with e-waste from ...