A reportedly successful pilot project in Northeastern Pennsylvania could help the United States meet the ever-increasing ...

This phenomenon has never been seen before in history. A glowing chemical element that is found at the bottom of the earth ...

Innovative solutions are urgently needed to prevent the accumulation of damaged batteries in waste systems and reduce the ...

At the Berkeley Pit, researchers hope to extract valuable metals to increase U.S. production of rare earths used in electric ...

Sambuddha Misra, a chemical oceanographer at the Indian Institute of Science in Bengaluru, researches how these materials get ...

A team partially replaced lithium in a lithium antimonide compound with the metal scandium. This creates specific gaps, so-called vacancies, in the crystal lattice of the conductor material. These ...

To achieve the record conductivity, the team created a novel material composed of lithium, antimony, and scandium.

Researchers at TUM and TUMint.Energy Research have taken a significant step towards improving solid-state batteries. They ...

This study presents an Al-Li/LiF artificial interphase that enhances lithium metal battery performance, reducing dead lithium ...

This study presents an innovative NaOH roasting and water leaching process for lithium extraction from spodumene, focusing on ...

A new breakthrough in science could reshape how rare earth elements are separated, extracted, and reused—something that ...