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Nanoramic Laboratories
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  5. Neocarbonix - Energy Storage

NeocarbonixEnergy Storage

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Designed for aerospace supercapacitors. Ready for next-chapter EV batteries. Lower cost. Higher energy density. Faster charging. Lower Cost/kWh -27% *: Neocarbonix® at the Core reduces overall cell cost by 27%. This is possible with our Neocarbonix® at the Core silicon dominant anode combined with our high loading LFP cathode. Higher Energy Density +35% *: Neocarbonix® at the Core increases cell level energy density by 35%, reaching over 350 Wh/kg and 900Wh/L. This is achieved by combining our silicon dominant anode with our high loading Ni-rich cathode, reaching 6mAh/cm2 areal capacity.
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Faster Charging 15 minutes

The combination of our Neocarbonix® at the Core silicon dominant anode with our highly conductive PVDF-free cathode is critical for fast charging performance in energy cells. Through this pairing, Neocarbonix® at the Core enables 80% charge in under 15 minutes in high energy density cells (>900 Wh/L and >350 Wh/kg).

Use Same Equipment

Neocarboinx® at the Core electrodes are manufactured with standard roll-to-roll coating and calendering equipment, and can be produced in today`s factories.

Long Cycle Life

The Neocarbonix® at the Core 3D nanoscopic carbon binding structure improves cycle life of high loading cathodes and silicon dominant anodes, achieving 1000 cycles. Li-ion cells enable continuous fast charging with minimum degradation. Our cells demonstrated 1000 cycles with fast charging in less than 15 min every 4 cycles.

Environmentally Friendly

The Neocarbonix® at the Core 3D nanoscopic carbon binding structure eliminates PVDF binder, and subsequently NMP solvent from the coating process. We replace these with non-toxic solvents that require less energy in the drying process. This leads to less CO2 emission during the manufacturing of Li-ion cells. In addition, Neocarbonix® at the Core electrodes are designed to simplify the direct recycling process of cathode active material.

Neocarbonix® at the Core cathodes do not require NMP solvent and PVDF binder during the wet coating process.

As a result, high loading cathodes with high electrical conductivity as well as high silicon content anodes are enabled by this technology.

A nanoscopic carbon-based binding mesh works as a conductive scaffold for the electrodes as well as a binding structure for active material particles.

The electrode structure is created via the coating process of a slurry, and the structure is formed during the slurry drying step with an engineered self assembly process.

A cleaner battery for a cleaner future
Highly Recyclable
Neocarbonix® at the Core electrodes are designed to simplify the direct recycling process of cathode active materials, without the need of toxic solvents, making the recycling process more efficient and less energy-intensive.
Eco-friendly Manufacturing
The Neocarbonix® at the Core NMP-free process enables the use of environmentally friendly solvents that require low energy during the drying process.
30% Reduction in Energy Consumption
Less energy is required during the drying step of the coating process, leading to energy savings of 30% and reduced CO2 emissions during manufacturing.