Description
Super Conductive Carbon Black Nanopowder and Carbon Nanotube Mixture
Our Super Conductive Carbon Black Nanopowder and Carbon Nanotube Mixed formulation is engineered for advanced conductivity and mechanical reinforcement. By combining highly conductive carbon black nanoparticles with multi-walled carbon nanotubes (MWCNTs), this product prevents CNT agglomeration, enhancing uniform dispersion and boosting overall performance.
This hybrid conductive material significantly improves electrical and mechanical properties such as:
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Electrical conductivity
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Hardness and tensile strength
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Elastic modulus
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Specific strength
Such enhancements open up a wide range of industrial and commercial applications, especially in:
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Electronic components: touch screens, displays, sensors
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Energy storage: lithium-ion batteries, supercapacitors, fuel cells
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Aerospace and automotive industries: lightweight structural components and EMI shielding
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Smart textiles: body armor, tear-resistant fibers, wearable electronics
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High-performance sports equipment
Technical Properties
Carbon Nanotubes (MWCNTs):
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Purity: >97 wt%
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Outer Diameter: 25–100 nm
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Length: 5–35 µm
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Specific Surface Area: >110 m²/g
Highly Conductive Carbon Black Nanopowder:
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Average Particle Size: 5–100 nm
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Tap Density: 0.20 g/cm³
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Adsorption Value: 600 ml/100g
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Volume Resistivity: 4 × 10⁻⁴ Ω·cm
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pH Value: 8.0–10.0
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Appearance: Black powder
Elemental Analysis:
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Moisture: 0.2%
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Ash: 0.2%
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Carbon (C): 98%
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Nickel (Ni): 0.3–0.8%
Applications
This hybrid conductive nanomaterial can be used in:
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Drug delivery & biosensors
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CNT-reinforced composites
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Catalysis & nanoprobes
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Hydrogen storage & lithium battery electrodes
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Flat panel displays & transistors
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Solar cells & photoluminescent devices
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Supercapacitors & gas-discharge tubes
We provide this high-purity, cost-effective conductive mixture to support your innovation in energy, electronics, and composite materials.