Copper Carbon Nanotubes / CNTs Doped with 50wt% Cu Nanopowder
| Copper Carbon Nanotubes | |
| Product No | NRE-37009 |
| CAS No. | NA |
| Purity | 97% |
| Average Diameter | >55 nm |
| Average Length | 10-30umm (TEM) |
| Special Surface Area(SSA) | 60 m2/g (BET) |
| Tap Density | 0.12 g/cm3 |
| True Density | 2.1 g/cm3 |
| Electric Conductivity | > 100 S/cm |
Copper Carbon Nanotubes
Copper carbon nanotubes represent a unique hybrid nanomaterial that combines the properties of copper with the structural benefits Here’s a focused introduction outlining the key differences that make CuCNTs distinct.
Potential Applications:
Potential Applications of Copper Carbon Nanotubes
Electronics:
Conductive Interconnects: CuCNTs can be used in integrated circuits and printed circuit boards, providing improved conductivity and reducing signal loss.
Flexible Electronics: They are suitable for flexible displays and wearable devices, where lightweight and high conductivity are essential.
Energy Storage:
Batteries: CuCNTs can enhance the performance of lithium-ion and other battery types by improving charge capacity and reducing charging times.
Supercapacitors: Their high surface area and conductivity make them ideal for energy storage applications, enabling rapid charge and discharge cycles.
Composites:
Lightweight Structural Materials: CuCNTs can reinforce polymers and metals, resulting in composites that are both strong and conductive, beneficial for aerospace and automotive industries.
Conductive Coatings: They can be used in coatings for various surfaces to improve electrical conductivity.
Thermal Management:
CuCNTs can enhance heat dissipation in electronic devices, making them useful in thermal interface materials and heat sinks.
Sensors:
Gas Sensors: They can be applied in sensors for detecting gases and environmental pollutants, utilizing their high sensitivity and conductivity.
Biosensors: CuCNTs can also be used in biosensing applications, detecting biomolecules with high accuracy.
Biomedical Applications:
Drug Delivery: CuCNTs may serve as carriers for targeted drug delivery, facilitating controlled release and improving therapeutic efficacy.
Antimicrobial Coatings: The antimicrobial properties of copper make CuCNTs suitable for coatings on medical devices and surfaces.
Environmental Applications:
Water Filtration: CuCNTs can be employed in filtration systems to remove contaminants due to their high surface area and catalytic properties.
Pollution Monitoring: They can be used in sensors to detect heavy metals and other environmental pollutants.
Catalysis:
CuCNTs can act as catalysts in various chemical reactions, enhancing reaction rates and selectivity in industrial processes.
