Home » Carbon Nanofiber (Purity: 99.9%, Dia: <1µm, Length: <100µm)

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Stock No. CAS MSDS Specification COA
NS6130-01-121 7440-44-0 Specification pdf COA pdf

Carbon Nanofiber (Purity: 99.9%, Dia: <1µm, Length: <100µm)

CARBON NanoFiber

Product: Carbon Nanofiber (Purity: 99.9%, Dia: <1µm, Length: <100µm)

Quality Control: Each lot of Carbon Nanofiber was tested successfully.

SEM - Carbon NanoFiber

SEM - Carbon NanoFiber

 
Product Carbon Nanofiber
Stock No NS6130-01-121
CAS 7440-44-0 Confirm
Diameter < 1µm Confirm
Length < 100µm Confirm
Purity 99.9 % Confirm
Molecular Formula C Confirm
Molecular Weight 12.01g/mol Confirm
Color Black Confirm
Density 2.1 g/cm³ Confirm
Melting Point 3652-3697°C Confirm
Thermal Conductivity ~2000 W/m-K Confirm
Bulk Density 0.043 g/cm³ Confirm
Main Inspect Verifier Manager QC

Typical Chemical Analysis

Assay 99.9 %
Other Metal 1000ppm

Expert Reviews

Jules L. Routbort, (Argonne National Laboratory, Argonne, USA)

Carbon (atomic symbol: C, atomic number: 6) Carbon is a Block P, Period 2, nonmetallic element. Carbon is at the same time one of the softest (graphite) and hardest (diamond) materials found in nature. It’s most famously used as a lightweight, high-strength construction material in exotic cars and aircraft, but it’s becoming downright common these days.


Dr. Ms. Kamiko Chang, Ph.D, (University of Science and Technology Beijing, China)

Carbon fiber is well suited to uses in medical facilities thanks to its X-ray permeability and non-magnetic properties. That’s why it is used, for example, in many complex medical scanning devices. It also has the perfect set of properties for sterilization, making it a mainstay in many operating theaters. Its high strength and light weight also make it ideal for use in medical aids, such as wheelchairs, beds, artificial limbs and braces, portable access ramps and much, much more.


Dr. Nicholaos G. Demas, (Newcastle University School Of Machanical & Systems Engg. UK)

Robotic industry a worldwide industrial robot maker, uses carbon fiber plastics for the arm of its case packing robot. The lighter weight in the arm keeps the inertial forces low allowing it to move quicker with higher accelerations and decelerations, thereby ultimately increasing the c Industrial automation and robotics is a field starting to realize the benefits of carbon fiber designs. For many applications, the ability to reduce weight and increase structural stiffness reflects directly in faster response time and reduced motor and actuator loads. This in turn results in improved productivity and longer maintenance cycles.


Takeo Oku, (Department of Materials Science, The University of Shiga Prefecture, Hassaka 2500, Hikone, Shiga 522-8533, Japan)

Carbon nanofiber (CNF), as one of the most important members of carbon fibers, has been investigated in both fundamental scientific research and practical applications. CNF composites are able to be applied as promising materials in many fields, such as electrical devices, electrode materials for batteries and supercapacitors and as sensors.


Dr. Ms. Guixin (Susan), Ph.D, (Switzerland-Institute for Inorganic Chemistry, Zurich, Switzerland)

We used Carbon nanofiber for shielding of automotive electronics application to enhance the mechanical, thermal strength and  light weight. Fortunately, we found very excellent desired results.


Carbon Nanofiber

Carbon Nanofiber


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