new material
Transferred carbon nanotube vertical array on a paper substrate provides optimized electrical conductivity, superior flexibility, and lightweight mechanical reinforcement. Designed for advanced applications, it ensures efficient charge transport, extended durability, and high-performance adaptability.
Product Overview
Transfer carbon nanotube vertical arrays on paper substrates consist of highly ordered carbon nanotubes arranged in vertical arrays, transferred onto a paper substrate. This product exhibits exceptional mechanical, electronic, and thermal properties. Through precise processing, the alignment of carbon nanotubes is controlled to form a stable vertical array structure on the paper substrate.
Key Features
- High Purity:The product has a purity greater than 95%, ensuring excellent performance.
- Highly Ordered Arrangement:The vertical array structure enhances the material's mechanical strength and conductivity.
- Good Mechanical Properties:The combination of the paper substrate and carbon nanotube arrays provides strength and flexibility.
- Excellent Conductivity:The conductivity of carbon nanotubes makes this product suitable for a wide range of electronic applications.
Applications
- Electronic Devices:Can be used in sensors, electronic components, and other high-performance electronic applications.
- Energy Sector:Potential applications in energy storage devices such as supercapacitors and fuel cells.
- Composite Materials:Can be used to create high-strength, lightweight composite materials.
- Thermal Management:Due to the high thermal conductivity of carbon nanotubes, it is suitable for heat dissipation materials and thermal management systems.
| 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 | Paper |
| Notes | Height is random, minimum order of 10 pieces |
