Product Overview
Our Multi-Walled Carbon Nanotubes (MWCNTs) are engineered to meet the demanding requirements of cutting-edge research and industrial applications. Boasting exceptional mechanical strength, electrical conductivity, and thermal stability, these MWCNTs are the cornerstone for innovations across a wide range of fields including materials science, electronics, energy storage, and more. Leverage the unparalleled properties of our MWCNTs to enhance the performance and efficiency of your projects.
Key factor
- High Aspect Ratio: Ensures significant performance improvements, particularly in reinforcement and electrical conductivity applications.
- Chemical and Physical Stability: Offers reliability and longevity in chemically aggressive and physically demanding conditions.
- Customization Potential: Amenable to various chemical modifications to meet specific needs, increasing its versatility for different applications.
- Eco-Friendly Production: Manufactured with sustainability in mind, minimizing environmental impact.
Applications
- Composite Materials: Ideal for reinforcing materials in aerospace and automotive sectors, providing lightweight and strong solutions.
- Electronics: Essential for improving the efficiency of semiconductors, batteries, and conductive inks.
- Energy Storage: Plays a key role in enhancing the performance and capacity of batteries and supercapacitors.
- Biomedical: Shows promise for use in drug delivery systems, biosensing, and tissue engineering due to its unique physicochemical properties.
Advantages
- Enhanced Material Strength: Dramatically improves the toughness and durability of composite materials, crucial for aerospace, automotive, and protective gear.
- Superior Electrical Performance: Facilitates the development of conductive pathways, crucial for enhancing electronic devices and components.
- Advanced Thermal Management: Provides exceptional thermal conductivity, essential for maintaining performance in high-temperature environments.
- Versatile Integration: Easily incorporated into polymers, ceramics, metals, and other materials to enhance overall properties.
References
- Thermal and electrical transport in multi-walled carbon nanotubes
DJ Yang, SG Wang, Q Zhang, PJ Sellin, G Chen - Physics Letters A, 2004 - Elsevier
- Structural characterization of carboxylated multi-walled carbon nanotubes
GW Lee, J Kim, J Yoon, JS Bae, BC Shin, IS Kim, W Oh… - Thin Solid Films, 2008 - Elsevier
- Translocation and fate of multi-walled carbon nanotubes in vivo
X Deng, G Jia, H Wang, H Sun, X Wang, S Yang… - Carbon, 2007 - Elsevier