Nano Silicon Powder, Ultra Purity Grade


Particle Size: 1μm (micrometre)
Weight: 250 grams
Price:
Sale price$80.00

Description

Nano Silicon Powder, Ultra Purity Grade, offers an exceptional level of purity at 99.9%, making it ideal for high-performance applications in energy storage and semiconductor industries. Available in particle sizes of 20nm, 70nm, and 1μm, this powder features uniform particle distribution, a large specific surface area, and excellent surface activity. Nano Silicon Powder enhances lithium-ion battery efficiency as a superior anode material, offering high electrochemical performance and increased battery capacity. Additionally, its nanocrystal activity, low sintering temperature, and high strength make it perfect for use in optoelectronic semiconductors. As a cost-effective alternative to nano carbon in fuel cells, Nano Silicon Powder reduces production costs while maintaining strong energy output.

Speification:
Silicon (Si): 99.9% min.
Particle Size: Available in 20nm, 70nm, and 1μm
Other Components (Approximate Values):
Oxygen (O): ~220 ppm
Iron (Fe): ~35 ppm
Copper (Cu): ~25 ppm
Manganese (Mn): ~48 ppm
Phosphorus (P): ~20 ppm
Sulfur (S): ~19 ppm
Antimony (Sb): ~3 ppm
Cadmium (Cd): ~1 ppm
*The values listed represent approximate concentrations of components in Nano Silicon Powder and may vary slightly due to production conditions.

Key Features:
1) Ultra Purity Grade: 99.9% purity for top-tier performance in critical applications.
2) Versatile Particle Sizes: Available in 20nm, 70nm, and 1μm sizes with uniform distribution.
3) Advanced Electrochemical Properties: Ideal for lithium battery anodes, enhancing capacity and conductivity.
4) Optoelectronic Material: Suited for semiconductor applications requiring high dielectric loss and strong nanocrystal activity.
5) Cost-Effective: Replaces nano carbon in fuel cells, reducing costs while maintaining high performance.

Applications:
1) Lithium-ion Batteries: Anode material with high electrochemical efficiency and enhanced energy capacity.
2) Fuel Cells: A cost-effective alternative to nano carbon, improving performance and lowering production costs.
3) Optoelectronics: Suitable for semiconductor devices and high-power light sources due to high strength and low sintering temperatures.

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