new material
Carbon nanotube film provides exceptional electrical conductivity, lightweight flexibility, and superior mechanical strength. Designed for advanced applications, it ensures efficient material integration, extended durability, and high-performance adaptability.
Product Overview
This carbon nanotube film is fabricated using the chemical vapor deposition (CVD) method, offering excellent flexibility and conductivity. The microstructure of the film consists of interwoven disordered carbon nanotubes, which form micropores without the use of binders or surfactants. The CVD method allows precise control over the nanotube diameter, length, density, and alignment, ensuring high-quality and controllable growth to meet various application needs.
Key Features
- Excellent Flexibility:The film is flexible and can be bent repeatedly, making it suitable for flexible electrode applications.
- Outstanding Electrical Conductivity:High electrical conductivity, making it ideal for electrode materials.
- Good Thermal Conductivity:Can be used as a heat dissipation material, widely applied in high-power electronic devices.
- Chemical Stability:Offers excellent resistance to corrosion and oxidation, extending the service life of the material.
Applications
- Electronic Devices:Used in transistors, sensors, displays, and other electronic devices.
- Energy Sector:Suitable for use in fuel cells, lithium-ion batteries, and other energy devices.
- Composite Materials:Can be combined with polymers or other materials to produce high-performance composite materials.
- Heat Dissipation Materials:Used for heat dissipation in high-power electronic devices.
| Technical Parameter | Value |
| Appearance | Black film |
| Conductivity | 3-8 x 10⁴ S/m |
| Thickness | 10-15 μm |
| Metal Content | <10% |
| Strength | 60-120 MPa (lateral) |
| Flexibility | Can be repeatedly bent |
| Size | Max single sheet size: 90*90 cm |
