Lithium dendrites pose a significant challenge to the development of high-energy Li metal batteries. They can fracture solid-state electrolytes, compromising device safety and performance. Therefore, ...

Researchers have developed a magnetic-controlled “dream battery” system that provides four times the energy storage capacity ...

Researchers at the Paul Scherrer Institute PSI have achieved a breakthrough on the path to practical application of lithium ...

Lithium metal anodes are considered highly promising as anode materials for lithium-based batteries. However, the unavoidable growth of dendrites on the lithium anode leads to issues in advancing the ...

While lithium-ion batteries have become a global standard, the need for batteries with a higher energy densities is prompting more research into other promising battery architectures―one of which is ...

In a recent study published in Small, researchers introduced a three-dimensional, freestanding porous carbon nanofiber (PCNF) structure embedded with silicon oxide (SiOx), designed to address critical ...

Researchers at the Paul Scherrer Institute PSI have achieved a breakthrough on the path to practical application of lithium ...

They published their work on Sep. 12 in Energy Material Advances. "The great electrochemical phase-field simulation efforts devoted to exploring the dendrite growth mechanism under the temperature ...

Lithium-ion batteries are widely used to fuel various kinds of devices, from smartphones to electric cars. But they have limitations: lithium batteries are expensive, rely on rare materials, and can ...

A lithium battery could let electric vehicles drive farther on a single charge stay reliable in winter and reduce battery size while holding more energy.

Explore the solid state vs lithium ion debate in this detailed battery technology comparison, highlighting differences in ...