Carbon nanotube

Purity: 99.9% Diameter: 150-200 nm (from HRTEM, Raman) Length: 10 - 20 microns (TEM) Aspect Ratio: 70 Graphitization: >80% Conductivity: ρ= 6 * 10^6Ω*m Thermal conductivity: K>1600 w/mk Area: 300 square meters/gram (BET) Thermal conductivity: ~ 2000 W/m Thermal expansion coefficient: 1.0 ppm /℃ Bulk density: 0.18 g/cm 3 ~True density: 2 g/cm 3

Reagent Code: #94601
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CAS Number 308068-56-6

science Other reagents with same CAS 308068-56-6

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MDL Number MFCD00133992
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Carbon nanotubes are widely used in electronics due to their excellent electrical conductivity, making them ideal for components like transistors, sensors, and conductive films. In materials science, they enhance the strength, durability, and lightweight properties of composites, which are applied in aerospace, automotive, and sports equipment. Their high surface area and thermal conductivity make them valuable in energy storage devices, such as batteries and supercapacitors, improving performance and efficiency. In medicine, carbon nanotubes are explored for drug delivery systems, bioimaging, and tissue engineering due to their unique structural and functional properties. Additionally, they are utilized in environmental applications, including water filtration and pollutant removal, leveraging their adsorption capabilities.

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Test Parameter Specification
Appearance Black powder
Purity 99.5-100%
Infrared Spectrum Conforms to Structure
Diameter 150-200nm
Length 10-20um

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inventory 5 g
10-20 days ฿9,980.00

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Carbon nanotube
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Carbon nanotubes are widely used in electronics due to their excellent electrical conductivity, making them ideal for components like transistors, sensors, and conductive films. In materials science, they enhance the strength, durability, and lightweight properties of composites, which are applied in aerospace, automotive, and sports equipment. Their high surface area and thermal conductivity make them valuable in energy storage devices, such as batteries and supercapacitors, improving performance and ef

Carbon nanotubes are widely used in electronics due to their excellent electrical conductivity, making them ideal for components like transistors, sensors, and conductive films. In materials science, they enhance the strength, durability, and lightweight properties of composites, which are applied in aerospace, automotive, and sports equipment. Their high surface area and thermal conductivity make them valuable in energy storage devices, such as batteries and supercapacitors, improving performance and efficiency. In medicine, carbon nanotubes are explored for drug delivery systems, bioimaging, and tissue engineering due to their unique structural and functional properties. Additionally, they are utilized in environmental applications, including water filtration and pollutant removal, leveraging their adsorption capabilities.

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