Product Properties
High short purified single-walled carbon nanotubes (SWCNTs)
Purity: >90 wt%
Outside diameter: 1-2 nm
Length: 1-3 um
SSA: > 340 m2/g
Ash: < 5 wt%
Ig/Id >9
Purity: >90 wt%
Outside diameter: 1-2 nm
Length: 1-3 um
SSA: > 340 m2/g
Ash: < 5 wt%
Ig/Id >9
High short purified single-walled carbon nanotubes (SWCNTs)
Purity: >90 wt%
Outside diameter: 1-2 nm
Length: 1-3 um
SSA: > 380 m2/g
Ash: < 5 wt%
Ig/Id >9
Purity: >90 wt%
Outside diameter: 1-2 nm
Length: 1-3 um
SSA: > 380 m2/g
Ash: < 5 wt%
Ig/Id >9
-OH Functionalized: 3.96
High short purified single-walled carbon nanotubes (SWCNTs)
Purity: >90 wt%
Outside diameter: 1-2 nm
Length: 1-3 um
SSA: > 380 m2/g
Ash: < 5 wt%
Purity: >90 wt%
Outside diameter: 1-2 nm
Length: 1-3 um
SSA: > 380 m2/g
Ash: < 5 wt%
Ig/Id >9
-COOH Functionalized: 2.73
Highly purified, short single-walled carbon nanotubes (SWCNTs) possess unique properties due to their refined quality and specific structural characteristics. These nanotubes combine the inherent advantages of single-walled carbon nanotubes with the benefits conferred by their short length and high purity
- Distinct Electronic Types: The purification process can help in enriching certain chiralities, leading to a batch of SWCNTs that may predominantly exhibit either metallic or semiconducting behavior, crucial for specific electronic applications.
- Improved Electrical Conductivity: High purity ensures minimal impurities that could scatter electrons, thus enhancing the electrical conductivity, particularly useful in nanoelectronics and conductive nanocomposites.
- Exceptional Tensile Strength: The high purity of these SWCNTs means they have fewer defects, translating to remarkable tensile strength and mechanical integrity, ideal for reinforcing materials.
- Enhanced Flexibility: Short lengths contribute to a degree of flexibility, making them suitable for flexible electronics and materials that require bending or stretching without losing structural integrity