Skip to main content
#
NanoAmor
Home
site map
Your Shopping Cart
- Carbon Nanotubes and Nanofibers

NanoAmor Carbon Nanotubes and Nanofibers:
Our company sells carbon-based nanotubes and nanofibers, with various options, ranging from regular nanotubes to short-length, tangled, aligned, dispersible or functionalized nanotubes. Our carbon nanotubes are manufactured by catalytic chemical vapor deposition (CVD). Upon request, we can do custom production runs for other functionalizations than the two currently offered.

Notes:
For clients with no experience in dispersing carbon nanotubes (CNTs), we supply the following dispersants that help disperse CNTs in water, alcohol, ester, NMP, and DMF solvents:
CNTs/water dispersant; CNTs/alcohol dispersant; CNTs/ester dispersant; CNTs/NMP dispersant; CNTs/DMF dispersant.
Clicking the above dispersants to obtain instructions on using these dispersants to make CNTs dispersions.


Restrictions:  Product restricted to laboratory research and development uses. 
Materials Safety Data Sheet (MSDS) for Carbon Nanotubes

SWNTs & DWNTs

Regular- & short-length
MWNTs

-OH Functionalized, Dispersible
MWNTs

-COOH Functionalized, Dispersible
MWNTs

Carbon Nanofibers, Graphene, Aligned & Special  CNTs

Single-Walled Carbon Nanotubes (SWNTs)
SWNTs by Catalytic Pyrolysis of Methane:
    60%, L: 5-30 um
    60%, L: 5-30 um, -OH functionalized
    60%, L: 5-30 um, -COOH functionalized 
    60%, L: 1-3 um
    60%, L: 1-3 um, -OH functionalized New
    60%, L: 1-3 um, -COOH functionalized New

SWNTs by Moving Catalyst CVD:
SWNTs by Floating Catalyst CVD:

Regular Length MWNTs:
     98%. OD/L: 4-6 nm/10-20 um New
     98%, OD/L: 5-15 nm/10-30 um 
     
99%, OD/L: 5-15 nm/10-30 um New
     95%, OD/L: 8-15 nm/~50 um
     98%, OD/L: 10-20 nm/10-30 um
     98%, OD/L: 20-30 nm/10-30 um
     98%, OD/L: 30-50 nm/<10 um
     98%, OD/L: 30-80 nm/<10 um

Short Length MWNTs (easily dispersible):
     98%, OD/L: 4-6 nm/0.5-2 um New
     98%, OD/L: 5-15 nm/0.5-2 um
     99%, OD/L: 5-15 nm/0.5-2 um New
     95%, OD/L: 8-15 nm/0.5-2 um
     98%, OD/L: 10-20 nm/0.5-2 um 
     
98%, OD/L: 20-30 nm/0.5-2 um 
     
98%, OD/L: 30-50 nm/0.5-2 um
     98%, OD/L: 30-80 nm/0.5-2 um

Graphitized MWNTs*:
      99.9%, OD:  8-15 nm
      99.9%, OD: 10-20 nm
      99.9%, OD: 20-30 nm
      99.9%, OD: 30-50 nm
      99.9%, OD: 30-80 nm

Industrial-Grade MWNTs:
      95%, OD:  4-6 nm New
      95%, OD:  5-15 nm New
      95%, OD:  8-15 nm
      95%, OD: 10-20 nm
      95%, OD: 10-30 nm
      95%, OD: 20-40 nm
      95%, OD: 30-80 nm

 

Regular-Length MWNTs-OH:  
      98%, OD/L: 4-6 nm/10-20 um New
      98%, OD/L: 5-15 nm/10-30 um
      99%, OD/L: 5-15 nm/10-30 um New
      95%, OD/L: 8-15 nm/~50 um
      98%, OD/L: 10-20 nm/10-30 um
      98%, OD/L: 20-30 nm/10-30 um
      98%, OD/L: 30-50 nm/<10 um
      98%, OD/L: 30-80 nm/<10 um

Short-Length MWNTs-OH:  
      98%, OD/L: 4-6 nm/0.5-2 um New
      98%, ODL: 5-15 nm/0.5-2 um
      99%, OD/L: 5-15 nm/0.5-2 um New
      95%, ODL: 8-15 nm/0.5-2 um
      98%, ODL: 10-20 nm/0.5-2 um
      98%, ODL: 20-30 nm/0.5-2 um
      98%, ODL: 30-50 nm/0.5-2 um
      98%, ODL: 30-80 nm/0.5-2 um

Graphitized MWNTs-OH*:
      99.9%, OD:  8-15 nm
      99.9%, OD: 10-20 nm
      99.9%, OD: 20-30 nm
      99.9%, OD: 30-50 nm
      99.9%, OD: 30-80 nm

Industrial-Grade MWNTs-OH:
      95%, OD:  5-15 nm New
      95%, OD:  8-15 nm New
      95%, OD: 10-30 nm
      95%, OD: 20-40 nm
      95%, OD: 30-80 nm

Regular-Length MWNTs-COOH:
      98%, OD/L: 4-6 nm/10-20 um New
      98%, OD/L: 5-15 nm/10-30 um
      99%, OD/L: 5-15 nm/10-30 um New
      95%, OD/L: 8-15 nm/~50 um
      98%, OD/L: 10-20 nm/10-30 um
      98%, OD/L: 20-30 nm/10-30 um
      98%, OD/L: 30-50 nm/<10 um
      98%, OD/L: 30-80 nm/<10 um

Short-Length MWNTs-COOH:  
      98%, OD/L: 4-6 nm/0.5-2 um New
      98%, OD/L: 5-15 nm/0.5-2 um
      99%, OD/L: 5-15 nm/0.5-2 um New
      95%, OD/L: 8-15 nm/0.5-2 um
      98%, OD/L: 10-20 nm/0.5-2 um
      98%, OD/L: 20-30 nm/0.5-2 um
      98%, OD/L: 30-50 nm/0.5-2 um
      98%, OD/L: 30-80 nm/0.5-2 um

Graphitized MWNTs-COOH*:
      99.9%, OD:  8-15 nm
      99.9%, OD: 10-20 nm
      99.9%, OD: 20-30 nm
      99.9%, OD: 30-50 nm
      99.9%, OD: 30-80 nm

Industrial-Grade MWNTs-COOH:
      95%, OD:  5-15 nm New
      95%, OD:  8-15 nm New
      95%, OD: 10-30 nm
      95%, OD: 20-40 nm
      95%, OD: 30-80 nm

Aligned Multi-Walled Carbon Nanotubes (MWNTs):
    98%, OD: 8-15 nm, L: 30-50 um

Vertically Aligned Carbon Nanotube Arrays:
   OD/L = 7-10 nm/100-300 um, silicon substrate

Carbon Nanofibers:
   70%, OD: 200-600 nm 
   95%, OD: 50-200 nm
   95%, OD: 50-200 nm, graphitized


Graphene 
   Graphene 
   Graphene Oxide 
   Graphene Nanoplatelets (99.5%) 
   Graphene Nanoplatelets (90%) 

Nickel(60 wt%)-coated CNTs:
    OD 8-15 nm
    OD 10-20 nm
    OD 20-30 nm
    OD 30-50 nm
    OD 50-80 nm

MWNT-NH2 (95%, OD 8-15 nm)

MWNT-nitroegn doed (98%, OD 30-80 nm)

MWNT-Large ID (OD = 30-60 nm, ID = 20-50 nm) 

Coiled CNTS (60%, OD 100-200 nm)

Carbon Nanotube Masterbatches

Carbon Nanotube Fillers

*These MWNTs are heat-treated to temperatures up to 3,000 oC, which graphitizes relatively disordered carbon atoms present on the surface of MWNTs. This high-temperature heat treatment creates the most graphitic CNTs and reduces the catalyst content  to very low levels.

Some abbreviations that you may encounter on our product pages:

  • CNTs = carbon nanotubes 
  • SWNTs or SWCNTs  = single-walled carbon nanotubes
  • DWNTs or DWCNTs  = double-walled carbon nanotubes
  • MWNTs or MWCNTs  = multi-walled carbon nanotubes 
  • OD = outer diameter of carbon nanotube 
  • ID = inside diameter of carbon nanotube
  • L = length of carbon nanotube
  • WT = wall thickness of carbon nanotube
  • SSA = specific surface area  
  • CVD = chemical vapor deposition 
  • TEM = Transmission Electron Microscopy
  • XRD = X-ray diffraction
    Nanostructured & Amorphous Materials, Inc.
    1526 Katy Gap Road, #302
    Katy, TX 77494, USA
    Phone: (281) 858-6571
    E-mail:
    Sales | TechShipping | Accounting |
    All of this website's copyrighted contents are protected by law. The "NanoAmor" and "Nanostructured & Amorphous Materials, Inc." names are trademarks protected by law.