MWCNTs N-butanol Dispersion (3wt%, >95+%, OD: 5-15 nm, Length 50um)
| MWCNTs N-butanol Dispersion | |
| Product No | NRE-36020 |
| CAS No. | NA |
| Purity | > 95 wt% |
| Average Diameter | 5-15 nm |
| Average Length | 50 um (TEM) |
| Special Surface Area(SSA) | > 233 m2/g (BET) |
| Tap Density | 0.27g/cm3 |
| True Density | 2.1 g/cm3 |
| Electric Conductivity | > 100 S/cm |
Multi-Walled Carbon Nanotubes
MWCNTs N-butanol dispersion are cylindrical nanostructures made up of multiple layers of carbon atoms, arranged in concentric shells. Each layer is a rolled-up sheet of graphene, and the number of layers can range from two to several dozen. This unique structure imparts MWCNTs with exceptional mechanical strength, high electrical conductivity, and excellent thermal conductivity.
MWCNTs are characterized by their high aspect ratio, large surface area, and remarkable resilience, making them ideal for various applications. Their mechanical properties are significantly enhanced compared to MWCNTs N-butanol dispersion (SWCNTs), allowing them to withstand greater stress and deformation.
(MWNTs, MWCNTs) Application:
Composite Materials: MWCNTs are commonly added to polymers, metals, and ceramics to enhance mechanical strength, thermal stability, and electrical conductivity. These composites are used in aerospace, automotive, and construction applications.
Electronics: MWCNTs are employed in the production of conductive inks and pastes for printed electronics, flexible displays, and sensors. Their high electrical conductivity makes them suitable for applications in transistors and interconnects.
Energy Storage: In batteries and supercapacitors, MWCNTs improve charge storage capacity and cycling stability. They are used in electrode materials to enhance performance and efficiency.
Sensors: MWCNTs are highly sensitive to environmental changes, making them ideal for gas sensors, biosensors, and chemical sensors. Their large surface area allows for better interaction with target molecules.
Thermal Management: MWCNTs are used in thermal interface materials to improve heat dissipation in electronic devices. Their excellent thermal conductivity helps manage heat in high-performance applications.
Biomedical Applications: MWCNTs are explored for drug delivery systems, imaging, and cancer therapy. Their ability to be functionalized enhances their targeting capabilities and improves therapeutic efficacy.
Water Treatment: MWCNTs can be used in filtration systems to remove contaminants from water due to their high surface area and adsorptive properties.
Catalysis: MWCNTs can serve as supports for catalysts in fuel cells and other chemical reactions, improving the efficiency and effectiveness of the catalytic process.
Nanotechnology Research: MWCNTs are frequently used in laboratories to study their properties and behaviors, paving the way for innovative applications in various fields.
