Scientists are working diligently to improve the next generation of battery technology, and they have already made some ...

Lithium-ion batteries are already widely used ... Helmholtz-Zentrum Berlin The study showed that slow charging can lead to ...

When a lithium-ion battery pack bursts into flames ... Rapid corrosion reactions within the battery pack produce hydrogen and ...

A research group has introduced an innovative citric-acid-based method for extracting, isolating, and recovering metals from ...

Flooding from hurricanes Helene and Milton inflicted billions of dollars in damage across the Southeast in September and ...

A novel recycling process using citric acid efficiently recovers over 99% of lithium, nickel, cobalt, and manganese from ...

Resins and metals play a crucial role in preventing thermal runaway in batteries by enhancing thermal management. Innovations ...

A simple, highly efficient, inexpensive, and environmentally friendly process could provide a viable pathway for the sustainable recycling of depleted lithium-ion batteries (LIBs): No chemicals beyond ...

From smartphones to electric vehicles, lithium-ion batteries are everywhere in our daily lives ... The released protons break up the lithium-oxygen bonds, releasing lithium ions from the NCM into the ...

New cathode materials are being developed to further increase the capacity of lithium batteries. Multilayer lithium-rich transition metal oxides (LRTMOs) offer particularly high energy density.

Hurricanes cause billions in damage, including EV fires from flooded batteries; experts advise caution and safety measures.

Researchers have published a comprehensive review in Chemical Reviews on electron density-based methods.