Product Properties
High Purity Single-walled nanotubes (SWNTs)
Purity: > 95 wt%
Outside diameter: 1-2 nm
Length: 1-3 um
SSA: > 670 m2/g
Purity: > 95 wt%
Outside diameter: 1-2 nm
Length: 1-3 um
SSA: > 630 m2/g
OH: >9 wt%
Outside diameter: 1-2 nm
Length: 1-3 um
SSA: > 630 m2/g
OH: >9 wt%
High Purity Single-walled nanotubes (SWNTs)
Purity: > 95 wt%
Outside diameter: 1-2 nm
Length: 1-3 um
SSA: > 335 m2/g
COOH: >13wt%
Purity: > 95 wt%
Outside diameter: 1-2 nm
Length: 1-3 um
SSA: > 335 m2/g
COOH: >13wt%
High-purity single-walled carbon nanotubes (SWCNTs) are a form of carbon nanotubes characterized by their structure, consisting of a single graphene sheet rolled into a cylindrical tube. Their high purity means they contain minimal impurities or defects, which significantly enhances their intrinsic properties
- Semiconducting or Metallic Behavior: Depending on their chirality (the angle of the graphene sheet’s roll), SWCNTs can exhibit either metallic or semiconducting behavior. This unique property makes them highly valuable in electronics, for components such as transistors, diodes, and conductive films.
- High Electrical Conductivity: Metallic SWCNTs possess extremely high electrical conductivity, surpassing that of copper, making them ideal for use in electrical wiring, components, and circuits, especially where space and weight are critical.
- Unmatched Tensile Strength: SWCNTs are among the strongest materials known, with a tensile strength much higher than that of steel, yet they are significantly lighter. This makes them perfect for reinforcing materials in composites, potentially leading to new, lighter, and stronger materials for aerospace, automotive, and construction applications.
- High Elastic Modulus: The stiffness of SWCNTs is extraordinary, contributing to their use in applications requiring materials that maintain their shape under stress.