new material
Carbon nanotube NMP suspension offers excellent electrical conductivity, optimized dispersion stability, and superior mechanical reinforcement. Designed for advanced material applications, it ensures uniform distribution, extended durability, and high-performance adaptability.
Product Overview
Carbon Nanotube NMP Suspension is a high-concentration slurry containing multi-walled carbon nanotubes (MWCNTs), suspended in N-Methyl-2-pyrrolidone (NMP). It is synthesized using a chemical deposition method and offers high purity and excellent dispersion. This suspension is widely utilized in various applications, including composite material enhancement, battery electrodes, and catalyst supports. Its unique structure grants the carbon nanotubes exceptional mechanical, electrical, and thermal properties, making it a valuable material for materials science and energy applications.
Key Features
- Outstanding Mechanical Properties: Carbon nanotubes possess extremely high strength and toughness, with theoretical strength tens to hundreds of times greater than steel.
- Excellent Electrical Conductivity: Ideal for high-performance conductive inks, sensors, and other electronic devices.
- Superior Thermal Conductivity: Capable of effectively transferring heat due to its high thermal conductivity.
- Large Surface Area: Provides more active sites for adsorption and catalysis, improving catalytic efficiency.
Applications
- Composite Material Reinforcement: Enhances the mechanical properties, such as strength and stiffness, when added to plastics, rubber, metals, and other matrices. Especially beneficial in applications where carbon nanotubes are grafted onto carbon fibers to improve composite material strength.
- Electronic Devices: Used in manufacturing conductive inks, sensors, flexible displays, and other electronic components, offering excellent conductivity.
- Electrode Materials: Suitable for use in lithium-ion batteries and supercapacitors, enhancing energy storage and power output capabilities.
- Catalysts and Catalyst Supports: Serves as a catalyst or catalyst support to improve catalytic efficiency in various reactions.
- Energy Sector: Potential applications in batteries and hydrogen storage materials, facilitating hydrogen storage through its unique structure.
- Electromagnetic Wave Absorption: Due to its ability to absorb electromagnetic waves, it is used to create absorbing materials for military stealth and electromagnetic shielding.
- Biomedical Field: Its hollow structure enhances drug loading capacity, enabling effective drug delivery and sustained release.
- Research: Widely used in scientific research to explore the properties and potential applications of nanomaterials.
| Technical Parameter | Description |
| Appearance | Black paste |
| Carbon Nanotube Content | ~5wt% |
| Paste Medium | NMP |
