Helical Multi-Walled Carbon Nanotubes

Product Overview
Helical multi-walled carbon nanotubes feature a unique helical shape, where multiple layers of graphite bend and spiral around a central axis, forming a continuous tubular structure. This special structure gives them distinctive physical and chemical properties. These nanotubes are typically produced using chemical vapor deposition (CVD), with precise control over their morphology and performance through adjustments in catalyst type and reaction conditions.

Key Features

• Exceptional Mechanical Properties:High strength and modulus, able to withstand large stress and deformation without breaking.
• Outstanding Electrical Performance:Depending on the structure, they can exhibit metallic, semiconducting, or insulating properties.
• Excellent Thermal Conductivity:High thermal conductivity enables efficient heat transfer with low thermal resistance.
• Superior Chemical Stability:Maintains structural and performance stability in various environments.

Applications

• Composite Materials:Used to enhance the mechanical properties and thermal stability of composites, widely applied in aerospace, automotive manufacturing, and other industries.
• Electronic Devices:Ideal for producing high-performance field-effect transistors, sensors, and more, with tunable electrical properties.
• Catalyst Supports:Due to their high surface area and chemical stability, helical multi-walled carbon nanotubes are an ideal support material, improving catalytic activity and stability.
• Gas Adsorption and Separation:Strong adsorption capabilities for certain gases make them suitable for use in gas adsorption materials or separation membranes, with applications in air purification, water treatment, and more.