Lithium-ion batteries are widely viewed as a necessity for meeting our growing energy demands while reducing our dependence ...

Breakthrough 43% to 130% Improvement in Initial Battery Capacity Compared to Traditional Graphite Anodes with Less Material ...

I couldn't help but get a bit excited when I heard the rumor that Samsung and Apple might finally be working on bigger ...

Could silicon and carbon soon be making their way into smartphone batteries? Already tried and tested by several Chinese manufacturers, silicon-carbon battery technology could now be winning over some ...

“The all-solid-state battery is an innovative technology that will be a game changer in this EV era,” Honda research and development director Keiji Otsu said in a recent statement. “Replacing engines ...

A new battery, developed by German company FEV in collaboration with Taiwanese firm ProLogium, is set to revolutionize the ...

This advancement promises significantly higher energy density than traditional graphite batteries. The innovation is based on a collaboration with Group14 Technologies, which has developed a ...

Various approaches have been proposed to mitigate the volume expansion issues of silicon anodes. The nanoscale engineering of ... Still, other approaches involve designing silicon composites with a ...

As part of the work, scientists fused graphite material together in a novel approach to form an anode, which they reported improves conductivity. Graphite is a crucial, effective battery substance ...

In our study, we identified the duration in a charged state as a relevant factor to further investigate, evaluate and develop composite anodes based on silicon and graphite.” ...

In modern lithium batteries, the anodes are usually made of graphite like pencil leads. The cathodes are usually based on lithium nickel manganese cobalt oxide (NMC) or lithium iron phosphate (LFP).