A scalable spray-drying method produces graphite, carbon nanotube, and silicon composite anodes that retain 95% capacity after 100 cycles in lithium-ion batteries.

Lithium-ion batteries have transformed everything from consumer electronics to electric vehicles and energy storage. But to power the next wave of tech — from planes to smartphones — they need to get ...

Lithium-ion batteries are powering a revolutionary transition to electric vehicles. But booming battery use will eventually create a mountain of spent batteries—and very few are currently recycled. A ...

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 ...