Thicker battery electrodes pack in more active materials, promising higher energy density. However, when it comes to ...

Cathode active materials, or CAM, is a further step beyond that, refined for direct use in battery manufacturing.

Now, a team of researchers is proposing a material that seemingly does it all. It's reasonably conductive, it allows lithium ...

Nano One aligned with global leaders on critical mineral processing and energy infrastructure investment to prioritize ...

A novel cathode material consisting of lithium, iron, and chlorine brings higher density, durability, and self-healing to ...

To support the further advancement of the electronics industry, energy researchers have been trying to develop new battery technologies that could be charged faster, power devices for a greater ...

India's lithium-ion battery market is set to witness a staggering 48% CAGR through 2030, predominantly fueled by electric ...

A research team has developed an innovative single-step laser printing technique to accelerate the manufacturing of lithium-sulfur batteries. Integrating the commonly time-consuming active ...

Tesla might have figured out how to make manganese-rich battery cells last longer with doped cathode active material. Manganese-rich cathode active materials such as LiMn2O4 have long been ...

When it comes to developing resilient battery materials, engineers much look to innovations in metal chemistries and ...

Metal fleece: material for the batteries of the future Battery electrodes thicken as a result of the accelerated transport of lithium ions via metal fleeces, making them particularly efficient and ...