Home » Aligned Carbon Nanotubes ARRAY (SWCNT, Purity: >99.9%, Diameter: 1-2 nm)

CARBON NANOTUBES ARRAY

Stock No. CAS MSDS Specification COA
NS6130-10-1211 308068-56-6 Specification pdf COA pdf

Aligned Carbon Nanotubes ARRAY (SWCNT, Purity: >99.9%, Diameter: 1-2 nm)

High Purity Aligned Carbon Nanotubes (SWCNT) Arrays – Thermal CVD

Product: Aligned Carbon Nanotubes Array (SWCNT, Purity: >99.9%, Diameter: 1-2 nm)

Quality Control: Each lot of Aligned Carbon Nanotubes Array was tested successfully.

Aligned Carbon Nanotubes SEM/TEM

Aligned Carbon Nanotubes SEM/TEM

 
Product Aligned Carbon Nanotubes Array
Stock No NS6130-10-1211
CAS 308068-56-6 Confirm
Diameter 1-2nm Confirm
Length 5-500µm Confirm
Purity >99.9% Confirm
Rigidity Mutually Supported Confirm
Site Density 10¹⁰ to 10¹¹ CNT/cm² Confirm
Substrates Si, SiO2, SS, Ti, Mica Confirm
Adhesion Layer Al2O3 Confirm
Catalyst Iron Confirm
Size up to 1.25”*4” Confirm
Patterns Yes, Lithographic Confirm
Uses Supercapacitor, electrods, optical coatings, heat transfer
Conclusion The specifications conform with enterprise standard
Main Inspect Verifier Manager QC

Expert Reviews

Dr. Bruce Perrault, Ph.D, (Georgia Institute of Technology (Georgia Tech), USA)

Aligned Carbon Nanotubes: Vertical arrays of carbon nanotubes, called ‘forests’, are a common type of three-dimentional (3D) nanotube assembly. Vertical arrays effectively preserve and often accentuate the unique anisotropic properties of individual carbon nano tubes and posses a morphology that may be precisely controlled.These forests can be produced by chemical vapor deposition technique and used for diverse applications such as in highly elastic conductive composites, photo- or thermoacoustics, for mechanical nanomanipulation, in catalysis or as sensors in nanomedicine.


Dr. Myron Rubenstein, Ph.D, (Polytechnic University of Turin, Italy)

Aligned Carbon Nanotubes: Alignment is an important parameter for characterizing CNT bulk assemblies in terms of the theoretical limits of electrical and thermal conductivities and mechanical strength for individual CNTs. The scattering patterns reveal continuously varying alignment order along the growth direction and two distinctly different morphologies of CNTs.


Dr. Huojin Chan, (University of Science and Technology of China, Hefei, Anhui, China)

Aligned Carbon Nanotubes: The aligned CNT arrays are good templates to grow other ordered nanostructures. Other materials can directly deposited on CNT surface by physical vapor deposition (PVD). Such PVD processes such as sputter deposition offer a relatively simple and clean route to synthesize other nanotubes.


Dr. Ms. Yi Yen Shi, (King Mongkut’s University of Technology Thonburi,Bangkok, Thailand)

Aligned Carbon Nanotubes: Additionally the carbon nanotubes can act as the templates to confine the chemical reaction to grow nanorods. Bulk CNT are also widely applied in many cases to improve the mechanical, thermal, electrical, and other physical properties of the target materials. The CNTs are random or aligned in these composites. CNTs can also be aligned in the composites to form aligned-CNT composites.


Dr. Hans Roelofs Ph.D, (National Technical University of Athens, Greece)

Aligned Carbon Nanotubes: Carbon nanotube arrays are the most promising candidates as a kind of superstrong material for application in superstrong fibers, bullet-proof vests, aeronautics and extraneous materials, and even space elevators due to their extraordinary mechanical strength and high Young’s modulus. The self-assembly of carbon atoms into an ultralong CNT with a perfect structure is a rigid process during which the mass, heat and momentum transfers have reached their upper limits and are highly susceptible to the environmental conditions


Aligned Carbon Nanotubes

Aligned Carbon Nanotubes