Scientists in the United States placed fast charging for lithium-ion batteries under the microscope, finding that charging at higher rates can quickly damage the structure of a graphite anode, causing ...

As lithium-ion batteries are increasingly deployed in electric vehicles, aviation, and energy systems operating ...

How do batteries achieve extreme fast charging? While lithium-ion batteries power everything from smartphones to electric vehicles, their widespread adoption is hampered by a critical limitation: slow ...

Graphite is the most common, stable, crystalline form of carbon and has a wide variety of end uses in nuclear, automotive, and high-technology industries. For instance, in rechargeable lithium-ion (Li ...

The rapid evolution of lithium-ion batteries has driven significant research into novel anode materials that offer improved safety, enhanced rate capabilities, and prolonged cycle life. Traditionally, ...

AZoM talks to Dr. Daniel Abraham about his research surrounding lithium-ion batteries and the challenge of fast charging in particular. Please can you introduce yourself, your background, and how you ...

Anode-free lithium metal batteries, which have attracted attention as candidates for electric vehicles, drones, and ...

SYDNEY, NSW, AUSTRALIA, October 13, 2022 /EINPresswire.com/ -- • Plans to establish a downstream anode active material (AAM) processing plant with a number of ...

A one-step plasma sputtering method for fabricating silicon/tin nanowire anodes could open doors to next-generation lithium-ion batteries Many countries have set decarbonization targets to meet the ...

Graphite is one of the essential minerals needed to produce lithium-ion batteries, but the US is largely lacking in domestic production of the key material. As a result, most graphite used in domestic ...