The basic principle of all li-ion batteries is: li-ions on the run. In a fully charged battery cell, billions of lithium (Li) atoms are trapped in the “anode” porous reservoir, typically a thin sheet ...

In the fast-evolving world of industrial lithium batteries, extending cycle life—the number of charge and discharge cycles a battery can endure before significant degradation occurs—is one of the key ...

36th Annual State of Logistics Report: Navigating uncertainty amid rising costs and global disruptions The 36th Annual State of Logistics (SoL) Report highlights a logistics market tested by economic ...

Lithium-metal batteries could double the range of an electric vehicle. Still, their life cycle is short because they degrade very fast. Stanford scientists found a simple way to extend their lives and ...

What determines the cycle life of batteries? And, more importantly, how can we extend it? An international research team led by TU Delft has discovered that local disorder in the oxide cathode ...

Found everywhere from smartphones to electric vehicles, lithium-ion batteries could revolutionize the heavy-duty trucking industry. Their higher energy density (more power per unit space), lighter ...

As the global electric vehicle (EV) market continues to expand, two types of LIBs dominate: NMC batteries, known for their high energy density and suitability for long-range EVs, and lithium iron ...

Scientists brought islands of "dead" lithium back to life by making them creep worms to reconnect with their electrodes in next-gen lithium metal batteries. This extended battery life by nearly 30%.