Carbon Nanotubes Doped with 52 wt% Copper (Cu) Nanopowder/Nanoparticles
- SKU:
- NG01SC0704
- Shipping:
- Calculated at Checkout
Description
5 grams:170€
25 grams:345 €
100 grams:650€
500 grams: 1740€
1000 grams: 2950€
Please contact us for quotes on larger quantities !!!
Carbon Nanotubes Doped with 52 wt% Copper (Cu) Nanopowder/Nanoparticles
Carbon Nanotubes doped with 52 wt% Copper (Cu) nanoparticles combine the superior electrical conductivity and mechanical resilience of CNTs with copper’s high thermal/electrical conductivity and ductility. This hybrid material delivers enhanced tensile strength, elastic modulus, and durability while maintaining high purity and stability. CNT–Cu composites are particularly attractive for next-generation energy storage devices, high-performance electronics, and multifunctional composites where conductivity, mechanical reinforcement, and thermal management are critical.
Technical Properties
| 52 wt% Cu Nanopowder/Nanoparticles | |
| Purity | 99.99% |
| Average Particle Size (nm) | 30 |
| Specific Surface Area (m2/g) | 40.0 |
| True Density (g/cm3) | 9 |
| Color | black |
| Shape | near spherical |
| Carbon Nanotubes (Multi Walled Carbon Nanotubes) | |
| Purity | > 97 wt% |
| Color | black |
| Average Outside Diameter (nm) | > 50 |
| Average Inside Diameter (nm) | 5 |
| Length (µm) | 15-25 |
| Tap Density (g/cm3) | 0.15 |
| True Density (g/cm3) | 2.4 |
| Specific Surface Area (m2/g) | > 65 |
| Ash | < 1.5 wt% |
| Electrical Conductivity (S/cm) | > 98 |
Applications
- Energy Storage: CNT–Cu hybrids are used in lithium-ion batteries as conductive additives that improve electron transport, cycle life, and mechanical stability. They also enhance supercapacitors by combining high conductivity with structural robustness.
- Electronics & Optoelectronics: Applied in transistors, flat panel displays, and solar cells, CNT–Cu composites improve charge transport, thermal management, and mechanical reliability. They are also studied for photoluminescence devices and electromagnetic shielding.
- Biomedical & Biosensing: CNT–Cu hybrids are explored in biosensors for sensitive detection and in drug delivery systems, where copper’s bioactivity and CNT’s functional surfaces enable controlled release and targeting.
- Composites & Structural Materials: In polymer and metal composites, CNT–Cu hybrids improve tensile strength, hardness, and elastic modulus while adding electrical and thermal conductivity. They are valuable in aerospace, automotive, and defense materials.
- Catalysis & Environmental: They act as catalyst supports in electrochemical and photocatalytic reactions, leveraging copper’s catalytic activity and CNT’s conductive scaffolds. CNT–Cu hybrids are also used in gas-discharge tubes, pollutant remediation, and nanoprobes.
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