High Conductive Carbon (MWCNT >99%, OD: 20-30nm)

High Purity High Conductive Carbon

Product: High Conductive Carbon

Description: Sample purity of NANOSHEL High Conductive Carbon MWCNT is 80-98 Vol%, as determined by Raman Spectrophotometer and SEM Analysis. Nanoshel Nano material contains no residual catalyst impurities. Tubes occur in bundles of length ~1 – 20μm. (±1.5μm) Individual tube length has not been determined.

FTIR Spectra MWNT Amine

FTIR Spectra of MWCNT Amine

XPS MWNT Pristein

XPS MWCNT Pristein

Materials High Conductive Carbon MWNT
Stock No NS6130-06-678
CAS No 308068-56-6
Diameter 20-30nm
Purity >99wt% (MWNT)
Amorphous carbon <1%
Residue ( calcination in air) <1%
Average interlayer distance 0.34nm
Special surface area 90-350* m²/g
Bulk density 0.05-0.17 g/cm³
Real density 1-2 g/cm³
Charging * 2180 (Capacity: mA h/g)
Discharging* 534 (Capacity: mA h/g)
Volume Resistivity 0.1-0.15 Ω.cm ( measured at pressure in powder)
Available Quantities 10Gms, 25Gms, 50Gms, 100Gms and larger quantites

Experts Review:

5454Dr. Ms. Kelley Johnson, Ph.D (Adam Mickiewicz University in Poznań, Poland)
Carbon Nano Tubes have recently emerged as one of the most important classes of nanomaterials having enormous potential to spark off the next industrial revolution. CNTs’ unique and extraordinary properties such as: extremely high electrical and thermal conductivities, very small diameters (less than 100 nm), large aspect ratios (length/diameter ratios, greater than 1000), outstanding mechanical properties, and a tip-surface area near the theoretical limit, make it an ideal candidate for electronic devices, chemical/electrochemical and biosensors, transistors, electron field emitters, lithium-ion batteries, white light sources, hydrogen storage cells, cathode ray tubes (CRTs), electrostatic discharge (ESD) and electrical-shielding applications.


imagesDr. Richard Harper, Ph.D (National Polytechnic Institute (IPN), Mexico)
Several products enabled by carbon nanotubes are already in the market, such as racquets, golf clubs, surfboards, ice hockey sticks, mass transportation fuel system components, battery electrode additives, plastics additives and masterbatches.


WQDr. Juan Yang (Seoul National University Seoul, South Korea)
MWCNTs-enabled engineering and specialty thermoplastics such as polycarbonate (PC), Polyetherimide (PEI), and Polyetheretherketone (PEEK) have been used in cleanrooms for the production of computer chips and hard drives, because they dissipate static electricity and, therefore, will not attract airborne contaminants.


aaaaaDr. Steve Chesney, Ph.D (Ludwig Maximilian University of Munich,Germany)
Used across a wide range of industries including plastics and composites, electrical and electronics, and energy as well as a range of industrial sectors, CNTs have become an essential ingredient or reinforcement material for these industries, with its usage growing broadly in line with the global economy.


DrLiDr. Ms. Mia Liao (National Taipei University of Technology, Taiwan)
Demand is growing for CNTs used in the production of technology-intensive products. The expanding range of applications includes electronic packaging, touch panels, automotive parts, industrial components, medical devices, racquets, golf clubs, surfboards, ice hockey sticks, mass transportation fuel system components, battery electrode additives, plastics additives and masterbatches. Carbon nanotubes encompass a wide range of markets across plastics & composites, electrical and electronics, energy and others.


High Conductive Carbon

High Conductive Carbon



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