Lithium was supposed to be soft. The metal bends easily in bulk form, stretches before it breaks, and deforms the way you ...

Researchers have developed a new AI model that predicts dendritic growth in thin films, helping optimize thin-film growth processes. Thin films are grown by depositing tiny layers of materials onto a ...

Metal batteries, with active metals as anodes, are considered as one of the most promising solutions to achieve the energy upgrade of battery technologies, yet their practical applications are ...

Lithium dendrites, i.e. tiny crystalline thorns that grow off of lithium-ion battery anodes during charging, have been a ...

Lithium-ion batteries have revolutionized the way we power our gadgets, and they even nabbed the Nobel Prize in Chemistry this year. But scientists want to make even more powerful versions. Replacing ...

Although the prevailing wisdom among neuroscientists is that Purkinje cells have just one primary dendrite that connects with a single climbing fiber from the brain stem, new research shows that ...

Scientists have uncovered a root cause of the growth of needle-like structures -- known as dendrites and whiskers -- that plague lithium batteries, sometimes causing a short circuit, failure, or even ...

Dendrites are a problem in lithium-based rechargeable batteries. Over the many charge/discharge cycles, these tiny crystal growths form naturally on the lithium surface and create a kind of branching ...

Neurons may get all the glory, but they would be nothing without glial cells. While brain cells do the heavy lifting in the nervous system, it's the glia that provide nutrients, clean up waste, and ...