The Paramount Step Towards Power with Dawson Advanced Battery Solutions.
Dawson Advanced Battery Materials
Dawson Group has achieved ground breaking advancements in the field of advanced battery chemistry, including Lithium, Sodium, Aluminium, Iron, Magnesium, and Zinc-based batteries. Our innovative technologies offer fast charging capabilities, enhanced safety, higher energy density, cost-effectiveness, and superior sustainability.
These advancements are pivotal in the scalable mass production of key precursors for Lithium and Sodium-ion batteries, delivering industry-leading quality. Dawson Group is at the forefront of pioneering these technologies, setting new standards for the battery industry.
Innovative Anodes:
Boosting Battery Life and Efficiency
The anode, serving as the negative electrode in Lithium-ion batteries, plays a critical role as the host for Lithium ions. While graphite is the predominant anode material used, it has limitations, including a relatively low specific capacity of just 372 mah/g and limited ionic and electronic conductivity.
Given these constraints, the anode presents significant opportunities for innovation and enhancement. Advancing anode materials is key to unlocking higher performance and greater efficiency in next-generation Lithium-ion batteries.
Graphene / Nitrogen Doped Graphene
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Graphene/Nitrogen- Doped Graphene- Engineered for superior performance.
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Customizable Nitrogen Doping- Tailored to meet specific requirements, with doping levels up to 16%.
Applications
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Nano Silicon Encapsulation: Ensures enhanced protection and stability of nano silicon powder.
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Enhanced Anode Performance: Significantly boosts anode conductivity, charge/discharge rates, fireproofing, and supports ultrafast charging.
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Extended Cycle Life: Achieve up to 100% increase in the cycle life of cells.
Nano Silicon
99% to 99.99% pure silicon
metal submicron / nano powder.
Applications
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High energy density anode material for lithium-ion cells and other chemistry cells.
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Increase of up to 40-70% in energy density.
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Silicon stands out as the most desirable anode material for Lithium-ion batteries, offering an exceptional energy density of 4200 mah/g, far surpassing the 372 mAh/g of traditional graphite anodes, and is available at a lower cost. However, to harness its full potential, silicon must be precisely engineered to ensure long-lasting performance, fast charging capabilities, and protection against significant volume expansion—approximately 300%.
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To address these challenges, we have meticulously developed Dawson Silicon Nano Powder. This advanced material is designed to optimize battery performance, delivering superior energy density while maintaining structural integrity and reliability.
30% increase in energy density
Dawson Nano+ Silicon Powder delivers a 30% increase in energy density, offering superior performance in battery technology. It boasts high charge acceptance and excellent reversibility of Lithium ions, ensuring efficient energy storage and release.
PVD By Plasma Vapour Deposition
Our Graphene Coated by PVD By Plasma Vapour Deposition, is a world-first innovation. This evenly distributed coating forms a unique, cage-like structure around the Silicon particles, providing robust physical and electrochemical protection to the anode.
Designed for seamless integration
Designed for seamless integration, Dawson's advanced Binder technology effectively manages volume expansion without necessitating any changes to the existing cell structure, ensuring enhanced performance & longevity of the battery.
Dawson Nano + Silicon Material
Our Anode materials are engineered to meet the highest standards of performance and reliability. Key specifications include
Scalability of the Product & Technology
At the heart of our production capabilities is our proprietary ORION 755, the largest nano synthesizer in the world. Specifically engineered for mass production, ORION 755 is the driving force behind the creation of Dawson Nano+ Silicon Powder. This state-of-the-art equipment ensures unparalleled precision and efficiency in the synthesis process, enabling us to produce high-quality silicon powder at scale to meet the demands of next-generation battery technologies.
Excellent performance
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Dawson Nano+ Silicon Powder is a high-purity material, boasting 99.95% purity and is meticulously coated with premium-grade graphene. This advanced coating significantly enhances the material’s cyclability, as well as its charge and discharge acceptance, making it an ideal choice for high-performance Lithium-ion batteries.​​​
Triple Anode Protection
Preferred Choice for Lithium-Ion Batteries
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Silicon is highly sought after by all Lithium-ion cell and battery manufacturers for its exceptional performance potential.
Challenges of Silicon Anodes
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Quality Degradation: Direct contact with electrolytes degrades the quality of silicon anodes, compromising battery longevity.
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Volume Expansion: Silicon anodes face up to 300% volume expansion after charging, leading to anode breakage and premature battery failure.
Dawson Group’s Solution
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Porous Graphene Coating: A specialized porous graphene layer protects silicon particles, preventing direct electrolyte contact and reducing penetration.
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Advanced Binder Technology: A specially designed binder controls volume expansion, maintaining anode integrity and extending battery life.
High Performance Cathodes
Engineered for Lithium Batteries.
Cathode Material Specifications
Our cathode materials are engineered to meet the highest standards of performance and reliability. Key specifications include
500 to 6000 cycles
Ensuring long-lasting battery performance
Graphene coating
Advanced Graphene coating for enhanced conductivity.
Packing Density
Highly packed materials for maximum energy storage.
5nm to submicron
Ranging particle sizes, optimized for various applications.
Packing Density
Highly packed materials for maximum energy storage.
Particle Uniformity
Consistent, uniform sizes for superior performance & stability.
​​We offer a range of advanced cathode materials engineered for high performance and sustainability in next-generation batteries.
LiFePOâ‚„
Lithium Iron Phosphate
LiMnPOâ‚„
Lithium Manganese Phosphate
LiFeMnPOâ‚„
Lithium Iron Manganese Phosphate
Li2TiO3
Lithium Titanate
We also specialize in
Lithium NMC Cathode Materials
We provide a diverse range of Lithium Nickel Manganese Cobalt (NMC) cathode materials, tailored to meet varying performance requirements. Our offerings include different combinations of Nickel, Manganese, and Cobalt, such as: (NMC 8:1:1, NMC 1:1:1, etc)
In addition, we provide Cobalt-free/low-Cobalt alternatives that deliver equivalent quality at a significantly reduced cost—up to 30% less than traditional NMC 1:1:1 composition.
Lithium Phosphate Batteries
We provide a broad selection of advanced cathode materials for sodium-ion batteries, specifically tailored to satisfy the needs of developing energy storage technologies. Our collection of work contains
• Prussian Blue Analog
• Polyanion Cathode Materials
• Layered Oxide Materials
Binders
for Anodes and Cathodes
tailored to meet the demands of high-performance, next-generation Lithium and Sodium-Ion batteries
Designed Binders for Anodes & Cathodes
Tailored to meet the demands of high-performance, next-generation Lithium and Sodium-Ion batteries
Performs at its Peak
Our advanced binders enhancing the structural integrity, efficiency, and longevity of battery components
Future of energy storage
We offer comprehensive range of cutting-edge materials and products essential for the manufacturing of advanced batteries.
Dawson - Powering Tomorrow
Dawson Innovations Fueling the Terawatt Green Energy Revolution with Disruptive Technology and Sustainable Raw Materials.