As the electric vehicle era enters full scale, demand is increasing for batteries that can travel farther and last longer.

South Korean researchers have unveiled a new lithium-metal battery technology that could push electric ...

A Korean research team has developed a self-adjusting protective layer that suppresses dendrite growth in lithium-metal batteries, paving the way for EVs that could charge fully in just 12 minutes.

Lithium metal batteries promise dramatically higher energy density than today’s lithium-ion systems, yet their widespread use remains limited by unstable lithium deposition, dendrite growth, and rapid ...

South Korean battery maker Samsung SDI Co. said Monday it has made a breakthrough in extending the lifespan and boosting the ...

Lithium metal anodes are considered highly promising as anode materials for lithium-based batteries. However, the unavoidable growth of dendrites on the lithium anode leads to issues in advancing the ...

They published their work on Sep. 12 in Energy Material Advances. "The great electrochemical phase-field simulation efforts devoted to exploring the dendrite growth mechanism under the temperature ...

A recent study stresses the need for a chemistry-neutral battery roadmap beyond 2030 to accelerate the shift toward ...

Solid-state batteries are safer and less-flammable than conventional EV batteries, so why haven't automakers made the switch ...

The ongoing electrification of everyday items has resulted in the proliferation of batteries, and spurred continued development for automotive and grid use. Lithium-ion batteries still dominate the ...

Electro-Chemo-Mechanical Origins of Lithium Dendrite Growth. Schematic illustration of lithium dendrite formation governed by coupled electrochemical, chemical, and mechanical processes. In liquid ...