Powering World’s Battery Future
Dawson Building Self-Reliance in Cathode Manufacturing for Terawatt Advance Battery Production: The Way Forward
Cathode Manufacturing – Engineered for Performance
Cycle Life
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1,500 to 6,000 cycles – enabling long-lasting energy storage systems.
Packing Density
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Industry-leading particle compaction for maximum volumetric energy density.
Particle Size Range
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5 nm to sub-micron – tunable morphology for application-specific optimization.
Particle Uniformity
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Narrow particle size distribution ensuring consistent electrochemical performance and stability.
Graphene Coating
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Advanced graphene layer enhances electrical conductivity and interfacial stability.
A New Era in Cathode Material Manufacturing
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Key Outcomes:
Up to 10× faster plant commissioning and scale-up.
Reduced environmental impact through cleaner synthesis pathways.
Higher material performance consistency with atomic-level precision.
Full localization eliminating dependence on external supply chains.
Problem of Lithium and Sodium Battery Cathode Manufacturing
The core challenge lies in the non-availability of indigenous technology and the country’s excessive dependency on China for both know-how and critical equipment required for the production of these materials. China currently dominates the global supply chain for cathode materials and holds proprietary technologies essential for large-scale manufacturing.
In recent years, China has prohibited the export of key technologies and specialized equipment necessary for producing cathode materials. Moreover, it has restricted the global supply of canode materials, creating a supply chain bottleneck and increasing global dependence on Chinese sources.
Global Technological Breakthrough
Key Features
From precursor to finished material under one roof
Full vertical integration for maximum process control.
Zero dependency
on imports
Dawson’s proprietary technology and equipment ensure full domestic autonomy.
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One plant, multiple products
A modular architecture enabling simultaneous production of diverse chemistries.
Modular and adaptive design
Easily expandable systems for evolving market demands.
Unmatched
Scalability
Up to 10× faster establishment period for equivalent production capacities.