Model SCC55 - Highest Performing Battery Material
Reimagined into its most ideal form for energy storage — amorphous and nano-sized — silicon has 10x the capacity of graphite by mass. Precisely engineered, SCC55™ is the perfect combination of carbon, silicon, and void space and is readily available as a drop-in ready for any blend ratio with graphite or as a complete displacement to deliver unmatched energy density and cycle life stability.
Uncontested Performance as a Blended Anode
Unlocking rapid implementation from first sample to full battery build
Best-in-class drop-in performance
Fully compatible with graphite, SCC55™ boosts energy density by 30% over 1000 cycles even with a 20% blend. For the consumer, the moment for cost-parity with internal combustion engines has arrived.
No optimization needed
SCC55™ requires no capital expense for equipment upgrades to current battery manufacturing facilities, side stepping years of long lead times typical for adopting new technologies. The result is a radical acceleration from evaluation to full implementation, delivering lithium-silicon batteries to the market in 2023.
Graphite has met its match
SCC55™ has five times the capacity and affords up to 50% more energy density than conventional graphite for Lithium battery anodes. Its unique hard carbon-based scaffolding keeps silicon in the most ideal form – amorphous, nano-sized, and carbon-encased. The result is the best-in-class anode material that exhibits outstanding first cycle efficiency and long life upon Li-ion battery cycling.
Stable and flexible, SCC55™ delivers
Designed to shape the leading edge of what is possible with lithium-ion, our hard carbon-based scaffolding is a silicon-dominant composite, composed with amorphous, nano-sized silicon. Drop-in ready, SCC55™ consists of integrated intra-particle void space, with low surface area and is made with readily available, non-exotic, ultra-high purity materials.