Electrochemical devices like batteries and fuel cells help power our modern lives. These devices traditionally contain a liquid electrolyte sandwiched between solid electrodes, and can generate ...

By unraveling the complex choreography of cellular machinery, Michigan State University researchers are helping identify the ...

The pioneering nuclear chemist Glenn Seaborg discovered berkelium at Berkeley Lab in 1949. It was one of many achievements ...

Innovative use of polyamide in lithium-metal batteries boosts performance and safety, addressing key challenges in ...

Lithium-ion batteries are reaching a saturation point; so it's time for a new technology - Silicon carbon. Here's everything ...

Innovative filtration membranes enable direct lithium extraction, offering a sustainable solution to meet rising demands for ...

Assembling DNA nanostructures at more moderate temperatures opens up the possibility of using the structures in biomedical ...

As global demand for lithium skyrockets, this newly devised method could be a huge boon for lithium production.

A new process for sustainable lithium extraction could help to address the growing global demand for the metals used in electric vehicle batteries and renewable energy storage.

Co-author Professor Melanie Britton of the University of Birmingham noted, “This breakthrough could significantly enhance lithium extraction and support the production of batter ...

Aluminum (Al) toxicity in acidic soils significantly restricts plant growth and agricultural productivity, especially in ...