Dry battery electrodes promise a cleaner way to build the lithium-ion cells that power electric vehicles and grid storage.
A UCLA-led research team has developed a zinc-ion hybrid battery with a 3D-printed electrode ...
A new dry electrode manufacturing process promises enhanced battery performance while reducing manufacturing costs and environmental impact.
Storing solar and wind energy to meet the increasing power needs of the electrical grid calls for devices that can deliver ...
The growing use of renewable energy sources, such as solar and wind power, requires energy storage systems that can charge quickly, deliver power efficiently and remain stable over long-term use.
South Korean researchers have developed a dry anode manufacturing technology that can dramatically cut battery charging times ...
Since the early 2000s, lithium-ion (Li-ion) batteries have become the predominant rechargeable power source for many mobile ...