An international team of researchers has found a way to extend the lifespan of lithium-ion (Li-ion) batteries by suppressing ...

Elevating the sintering temperature from 850 to 900°C transform the lithium-manganese-rich cathode from solid-solution structure to chemical separated two-phase structure, which is triggered by the ...

Inside the battery, layers of carbon fiber and lithium iron phosphate-coated aluminum are separated by a thin glass fiber fabric. A solid structural electrolyte holds everything together, transferring ...

Lithium-ion batteries find extensive applications, ranging from powering smartphones to serving in renewable energy storage systems and electric vehicles. Therefore, researchers are working to develop ...

A group of scientists from ANSTO, under the leadership of Professor Vanessa Peterson, employed neutron scattering techniques to investigate the development of problematic lithium structures in ...

The worldwide push for sustainability requires better, more durable batteries to support renewable energy systems and ubiquitous electronic devices.

By eliminating "ion traffic jams," researchers have uncovered the hidden potential of hard carbon anodes in sodium-ion ...

PORTLAND, Ore. (KOIN) — Portland fire officials are urging caution after lithium ion batteries reportedly caused two structure fires and displaced multiple residents Thursday. The first incident ...

A new sodium-ion battery offers a cheaper and safer alternative to conventional lithium-ion systems, scientists say, paving ...

The Portsmouth Fire Marshal’s Office determined the fire was accidental and caused by a lithium-ion battery. Fire officials ...

Researchers at Tokyo University of Science showed that sodium-ion batteries with hard carbon anodes can charge faster than lithium-ion batteries by using a diluted electrode method that reveals sodium ...