Copper Carbon Nanotubes / CNTs Doped with 30wt% Cu Nanopowder
| Copper Carbon Nanotubes | |
| Product No | NRE-37008 |
| 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
Potential Applications:
Electronics
Flexible Electronics: CuCNTs can be used in flexible displays and wearable technology, providing conductivity without sacrificing flexibility.
Printed Circuit Boards (PCBs): Their enhanced conductivity can improve the performance of PCBs, making them lighter and more efficient.
Energy Solutions
Solar Cells: CuCNTs can be incorporated into photovoltaic devices to enhance charge collection efficiency.
Thermal Batteries: They may be utilized in thermal energy storage systems, improving heat transfer efficiency.
Composites and Materials Science
Lightweight Structural Components: CuCNTs can reinforce materials in aerospace and automotive applications, providing strength without added weight.
Conductive Coatings: They can be applied as coatings to improve electrical conductivity on various surfaces.
Biomedical Applications
Antimicrobial Coatings: Due to copper’s antimicrobial properties, CuCNTs can be used in coatings for medical instruments and implants.
Tissue Engineering: CuCNTs may aid in the development of scaffolds that promote cell growth and tissue regeneration.
Environmental Applications
Water Purification: They can be employed in filtration systems to remove contaminants due to their high surface area and catalytic properties.
Pollution Sensors: CuCNTs can be used in environmental sensors to detect heavy metals and other pollutants.
Catalysis
Chemical Reactions: CuCNTs can act as catalysts in various chemical processes, enhancing reaction rates and selectivity in industrial applications.
Telecommunications
Signal Boosters: Their conductive properties can improve signal integrity in communication systems, particularly in high-frequency applications.
Military and Defense
Advanced Armor: CuCNTs could be integrated into lightweight armor materials, providing enhanced protection without significant weight increase.
Nanotechnology Research
Nanocarriers for Drug Delivery: They can be developed as carriers for targeted drug delivery, enhancing therapeutic efficacy and reducing side effects.
Smart Materials
Self-Sensing Structures: CuCNTs can be integrated into smart materials that can monitor stress and strain, useful in construction and aerospace applications.
