Transferred Carbon Nanotube Vertical Array (Metal Substrate)

Product Overview
The transferred carbon nanotube vertical array (metal substrate) consists of vertically aligned carbon nanotubes transferred onto a metal substrate, forming a unique structure. This structure not only retains the excellent properties of carbon nanotubes but also takes full advantage of the electrical conductivity and strength of the metal substrate, making it suitable for high-demand applications.

Key Features

• Adjustable Height:The height ranges from 300 to 1000 microns, accommodating different application needs.
• High Purity:Carbon nanotubes have a purity greater than 95%, ensuring excellent electrical performance and stability.
• Metal Substrate:Provides higher conductivity and mechanical strength, especially suited for high-load and high-strength applications.
• Vertical Alignment:The vertical arrangement of the carbon nanotubes effectively enhances the material’s conductivity and mechanical properties.

Applications

• Electronic Devices:Used to manufacture high-performance conductive materials, sensors, batteries, and other electronic components.
• Energy Storage:Serves as an efficient electrode material for supercapacitors, batteries, and other energy storage devices.
• Catalysis:Acts as a catalyst support or catalyst itself, improving catalytic efficiency.
• Composite Materials:Enhances the mechanical properties, conductivity, and thermal conductivity of metals, plastics, rubbers, and other materials.
• Sensor Technology:Applied in gas sensors, biosensors, and other sensor technologies, improving response speed and sensitivity.
• Thermal Management:Used in electronic devices for heat management and dissipation systems.