THE HIGHEST PERFORMING BATTERY MATERIAL ON THE MARKET
THE HIGHEST PERFORMING BATTERY MATERIAL ON THE MARKET
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.
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
Uncontested Performance as a Blended Anode
Unlocking rapid implementation from first sample to full battery build
Unlocking rapid implementation from first sample to full battery build
Best-in-class drop-in performance
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.
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
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 2022.
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 2022.
Based on third party data.


COMMERCIAL MANUFACTURING IS PERFECTED
Modular by design for global scale—learn more
Setting a New Standard for Commercial Performance
Setting a New Standard for Commercial Performance
With energy density that’s head and shoulders above, it’s finally time to replace graphite
With energy density that’s head and shoulders above, it’s finally time to replace graphite
Redefining the benchmarks
Redefining the benchmarks
With the best performance on the market at any blend ratio, SCC55™ has been proven as a complete displacement for graphite, achieving an incredible 50% increase in energy density performance over today’s best conventional lithium-ion batteries.
With the best performance on the market at any blend ratio, SCC55™ has been proven as a complete displacement for graphite, achieving an incredible 50% increase in energy density performance over today’s best conventional lithium-ion batteries.
Based on third party data.
The Promise of Silicon without the Compromise
The Promise of Silicon without the Compromise
Delivering the best first cycle efficiency across the board
Delivering the best first cycle efficiency across the board
Delivering the best anode performance
Delivering the best anode performance
For any blend ratio, SCC55™ delivers a solution for lithium-silicon batteries rivaling the high first cycle efficiency of graphite and outperforming other technologies on the market such as silicon oxide (SiOx). SCC55™’s high performance minimizes capacity loss over time while retaining a higher end-of-life capacity, with critical implications for the second-life market.
For any blend ratio, SCC55™ delivers a solution for lithium-silicon batteries rivaling the high first cycle efficiency of graphite and outperforming other technologies on the market such as silicon oxide (SiOx). SCC55™’s high performance minimizes capacity loss over time while retaining a higher end-of-life capacity, with critical implications for the second-life market.
Based on third party data.


The lithium-silicon battery age is here
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