Silicon has long been considered one of the most promising materials for next‑generation lithium‑ion battery anodes due to its exceptionally high theoretical capacity. However, its large volume ...
South Korean researchers have developed a new shape-controlled graphite granule dry-electrode manufacturing technology for ...
A spray-dried composite containing 15% nano-silicon and just 1% single-walled carbon nanotubes retained 95.3% of its capacity after 100 charge-discharge cycles, compared with 68% for a carbon nanotube ...
Dry battery electrodes promise a cleaner way to build the lithium-ion cells that power electric vehicles and grid storage.