Berzelius unveils high-performance pure silicon anode enhanced by OCSiAl single wall carbon nanotubes; 400 Wh/kg cell energy density
14 September 2024
Berzelius, a developer and manufacturer of silicon anodes, unveiled high-capacity pure silicon anodes with zero graphite. These anodes enable battery cells to achieve an impressive energy density of 400 Wh/kg while maintaining exceptional power capabilities.
This was made possible through the integration of OCSiAl’s single wall carbon nanotubes, resulting in cells with outstanding performance, high rate capabilities, and extended cycle life.
Single wall carbon nanotubes have gained widespread recognition as a key solution that significantly mitigates silicon anode degradation. A recent study conducted by a research group at Dalhousie University, Canada, led by Dr. Jeff Dahn, highlighted their impact:
High-capacity high volume expansion materials such as silicon and SiO must be used in conjunction with more stable electrode materials like graphite to reduce the mechanical degradation caused by volume change. Single-walled carbon nanotubes are shown to be a simple yet effective drop in addition to improve electrical connectivity and increase capacity retention in these silicon-based composite negative electrodes.
Unlike carbon black or multi wall carbon nanotubes, single wall carbon nanotubes form robust long-range connections that withstand silicon anode expansion and prevent degradation. Since 2014, OCSiAl has been the only company producing single wall carbon nanotubes at an industrial scale.
For eight years, we have been developing customized formulations with OCSiAl single wall carbon nanotubes, which help hold electrode particles together and prevent battery degradation. Single wall carbon nanotubes are effective even at ultralow concentrations. To improve the cycle life of systems with 10% silicon content, we use only 0.05–0.06% nanotubes. For systems with 30% silicon, we incorporate 0.15% nanotubes. The higher the silicon content in the anode, the more critical single wall carbon nanotubes become. In our pure silicon system, nanotubes are essential for creating a robust network to prevent rapid degradation.
—Dr. Cen Wang from Berzelius
The primary consumers of these high-silicon content material systems, enhanced by OCSiAl’s single wall carbon nanotubes, include manufacturers of electric vehicles, drones, power tools, and aerospace components. As the market of end products continues to expand, Berzelius is committed to further improving battery performance by pushing the limits of cycle life, swelling, and rate capabilities with single wall carbon nanotubes.
The company introduced its commercial silicon anode materials in 2020 and began constructing a 20,000-ton manufacturing facility in 2022. The first phase of this factory, with a 400-ton annual production capacity, was completed in November of 2022 and has since been supplying silicon material globally. This facility is one of the largest in the battery industry dedicated to pure silicon anode materials.
Berzelius (Nanjing) Co. Ltd., formerly Amprius (Nanjing) Co. Ltd., was founded in 2017 and was a wholly owned subsidiary of Amprius Inc. until February 2022.
Berzelius introduced commercial silicon anode materials in 2020 and started building a 20,000-ton manufacturing facility in 2022. The first phase of the factory, with 400-ton annual production capacity, was completed in November of 2022 and started to supply silicon material worldwide.
With the silicon anode and oxygen cathode they could come up with a high capacity battery
Posted by: SJC | 14 September 2024 at 05:52 PM