Product Properties
Short-length Multi-walled carbon nanotubes (MWCNTs)
Purity: > 98 wt%
Outside diameter: 30-80 nm
Length: 0.5-2 um
SSA: > 70 m2/g
Ash: < 1.5 wt%
Outside diameter: 30-80 nm
Length: 0.5-2 um
SSA: > 70 m2/g
Ash: < 1.5 wt%
Short-length Multi-walled carbon nanotubes (MWCNTs)
Purity: > 98 wt%
Outside diameter: 30-80 nm
Length: 0.5-2 um
SSA: > 70 m2/g
Ash: < 1.5 wt%
Purity: > 98 wt%
Outside diameter: 30-80 nm
Length: 0.5-2 um
SSA: > 70 m2/g
Ash: < 1.5 wt%
-OH Content: 0.71 wt%
Short-length Multi-walled carbon nanotubes (MWCNTs)
Purity: > 98 wt%
Outside diameter: 30-80 nm
Length: 0.5-2 um
SSA: > 70 m2/g
Ash: < 1.5 wt%
Purity: > 98 wt%
Outside diameter: 30-80 nm
Length: 0.5-2 um
SSA: > 70 m2/g
Ash: < 1.5 wt%
-COOH Content: 0.49 wt%
High-purity, short-length multi-walled carbon nanotubes (MWCNTs) are engineered nanomaterials characterized by their unique structure, consisting of multiple concentric tubes of graphene sheets rolled up into a cylindrical shape. These MWCNTs are distinguished by their relatively short length, often in the range of a few micrometers or less, and their high level of purity, meaning they contain minimal impurities or defects.
- Reinforcement in Composites: Their mechanical strength and flexibility make them excellent candidates for reinforcing polymers, metals, and ceramics, leading to materials with enhanced strength, durability, and lightweight properties.
- Electronics and Conductive Films: They are used in creating conductive inks, films, and coatings for flexible electronics, anti-static materials, and electromagnetic shielding.
- Energy Storage and Conversion: In batteries and supercapacitors, short-length MWCNTs serve as conductive networks, improving the electrode’s electrical conductivity and, consequently, the device’s overall performance. They are also explored in fuel cells and photovoltaics.
- Thermal Management: The high thermal conductivity is advantageous in materials designed for efficient heat dissipation, crucial in electronics cooling and thermal interface materials.