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 ...
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Next EV leap: New dry-electrode tech promises longer range and fast charging
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.
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