Carbon Nanotubes Highly Conductive Films
Thickness: 10–20 µm | Diameter: 120–130 mm
Carbon Nanotubes (CNTs) Highly Conductive Films are advanced materials composed of networks of carbon nanotubes—cylindrical molecules with walls of one-atom-thick carbon layers. These films leverage the unique electrical, thermal, and mechanical properties of CNTs, offering exceptional conductivity, flexibility, and durability.
The aligned structure of CNTs allows electrons to flow with minimal scattering, resulting in superior electrical conductivity compared to conventional films. They also provide effective thermal management for electronic devices. Despite being lightweight, CNT films exhibit remarkable strength and flexibility, and when produced in thin layers, they can be highly transparent, ideal for touch screens, flexible displays, and transparent conductive coatings. Additionally, CNTs are chemically inert, making these films resistant to corrosion and environmental degradation.
Technical Properties
| Property | Value |
|---|---|
| Metal Content | <0.5% |
| Strength | 60–120 MPa |
| Electrical Conductivity | 1×10⁵ – 4×10⁵ S/m |
Applications
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Electronics
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Energy Storage
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Solar Cells
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Thermal Management
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Sensors and other flexible electronic devices
