Volt Carbon's Graphite Advantage

Our dry-separated graphite concentrate has consistently demonstrated low oxidation and has been independently tested by both customers and laboratories. This results in superior purity and stability, which are critical for lithium-ion battery performance. Low-oxidation graphite enhances battery lifespan by reducing degradation over charge cycles, improving conductivity for higher energy efficiency, and minimizing side reactions that lead to capacity loss.

Additionally, our process achieves a higher yield from natural flake graphite to finished anode material, maximizing throughput and reducing waste. This efficiency not only lowers production costs but also enhances sustainability by utilizing more of the raw material for battery applications. These advantages translate into longer-lasting, more reliable batteries with improved charge retention and thermal stability, making them ideal for next-generation EVs, aerospace applications, and energy storage solutions.

Volt Carbon’s dry separation process preserves the natural catalyst materials essential for graphite-to-diamond transformation in the HPHT reaction chamber. Independent third-party testing confirmed that its processed graphite performs comparably to competitor materials that undergo flotation and chemical separation.

Key benefits of Volt Carbon’s low oxidation graphite include:

• Lower HPHT Processing Temperatures – Enables diamond synthesis at temperatures up to 200°C lower than conventional flake graphite, reducing energy consumption and lowering the carbon footprint.
• High Graphitic Structure – Enhances the efficiency of diamond formation while maintaining superior material integrity.
• Versatile Applications – Supports high-quality diamond production for gemstones, metalworking, lapping compounds, and coatings used in cutting, drilling, and grinding tools.

By optimizing graphite purity while eliminating chemical processing, Volt Carbon offers a sustainable and energy-efficient solution for synthetic diamond production.

These advantages have been independently validated through laboratory testing and customer trials, reinforcing the quality of Volt Carbon’s sustainable graphite for energy storage and advanced materials.