A discovery in lithium battery technology offers the potential for cheaper and longer-lasting battery materials. The breakthrough lies in using a common lithium salt and the process of sublimation.

Organic cathode materials are emerging as a credible alternative to the cobalt- and nickel-based ...

As the global electric vehicle (EV) market and renewable energy sector continue to expand rapidly, demand for advanced ...

Researchers have demonstrated a solvent-free method for manufacturing lithium-ion battery electrodes that eliminates the need ...

This new direct regeneration approach, employing a LiOH-LiNiO3-lithium salicylate (LSA) eutectic salt system, restores the structural integrity and electrochemical performance of spent cathodes, ...

Vishal Wadhvani and Ben Zhou, ANDRITZ Dedert, consider the history of spray dryers in the production of lithium-ion battery ...

FOR over a decade, electric vehicle (EV) development has been tightly coupled with advances in lithium-ion battery chemistry.

Inlyte Energy, led by Stanford researcher Antonio Baclig, is advancing iron-sodium battery technology first explored in the 1970s, using table salt and iron as core components. With successful module ...

The demand for Li-ion battery packs is soaring as the world moves towards energy-efficient and sustainable technologies. Li-ion battery packs are used widely because of their high energy density and ...

Add Yahoo as a preferred source to see more of our stories on Google. A discovery in lithium battery technology offers the potential for cheaper and longer-lasting battery materials. The breakthrough ...