new material
Transferred carbon nanotube vertical array on a fabric substrate provides optimized electrical conductivity, superior flexibility, and enhanced mechanical stability. Designed for advanced applications, it ensures efficient charge transport, extended durability, and high-performance adaptability.
Product Overview
The transferred carbon nanotube vertical array (fabric substrate) is made of high-purity carbon nanotubes arranged vertically and transferred onto a fabric substrate to form a unique, ordered structure. Combining the superior properties of carbon nanotubes with the flexibility of the fabric substrate, this product is widely used in various fields.
Key Features
- High Purity:The product has a purity greater than 95%, ensuring stable performance.
- Ordered Arrangement:The vertical alignment of the carbon nanotubes enhances the mechanical strength and conductivity of the material.
- Increased Flexibility:The use of fabric substrate improves the product's flexibility, making it adaptable to various application needs.
- Excellent Electrical and Thermal Conductivity:The conductivity and thermal properties of carbon nanotubes make this product highly suitable for high-performance electronics and thermal management applications.
Applications
- Electronic Devices:Used in sensors, conductive films, and other electronic components.
- Energy Storage:Suitable for supercapacitors, fuel cells, and other energy storage systems.
- Composite Materials:When combined with other materials, it improves mechanical strength and conductivity.
- Thermal Management:Due to its excellent thermal conductivity, it is widely used in heat dissipation devices and thermal management applications.
| Property | Parameters |
| Appearance | Black block |
| Height | 300 – 1000 µm |
| Purity | >95% |
| Density | ≤0.3 g/cm³ |
| Specific Surface Area | ~20 m²/g |
| Electrical Conductivity | 103 S/m |
| Substrate | Fabric |
