High Purity Whisker Carbon Nanotubes

Product Overview
High purity whisker carbon nanotubes are formed by rolling multiple layers of graphene sheets into concentric cylindrical structures. They are fabricated using chemical vapor deposition (CVD) and exhibit high purity and stable performance, making them suitable for a wide range of applications. These nanotubes possess extraordinary strength, toughness, excellent electrical and thermal properties, and a large surface area, making them ideal for applications such as adsorption and catalysis. Their high purity and unique structure make them valuable for composite materials, electronic devices, and catalysis, with significant potential for further development in various industries.

Key Features

• Exceptional Mechanical Properties:Strength up to dozens or even hundreds of times greater than steel, with good toughness.
• Outstanding Electrical Properties:Good electrical conductivity, suitable for electronic device manufacturing.
• Good Thermal Properties:High thermal conductivity, capable of efficiently transferring heat.
• Large Surface Area:Provides more active sites, ideal for adsorption and catalysis applications.

Applications

• Composite Material Reinforcement:By adding carbon nanotubes to plastic, rubber, metal, and other matrices, mechanical properties of the materials are significantly enhanced.
• Electronic Devices:Used in manufacturing conductive inks, sensors, flexible displays, and other electronic components.
• Electrode Materials:As electrode materials for lithium batteries and supercapacitors, enhancing energy storage and power output capabilities.
• Catalysts and Catalyst Supports:Can be used as catalysts or catalyst supports, improving catalytic reaction performance.
• Energy Sector:Used in hydrogen storage materials, suitable for hydrogen gas storage applications.
• Wave Absorbing Materials:Used in the fabrication of wave-absorbing materials, with electromagnetic wave absorption capabilities, applied in military stealth and electromagnetic shielding.
• Biomedical Field:Used in drug delivery systems, capable of penetrating cell membranes and improving sustained drug release effects.