Vertical Array of Multi-Walled Carbon Nanotubes (MWCNTs) on Quartz Substrate

Product Overview
The multi-walled carbon nanotube vertical array is a structure formed by multiple concentric carbon nanotubes arranged in a vertical direction. It offers excellent mechanical, thermal, and electrical properties. This unique arrangement makes it widely applicable across multiple fields, particularly in high-performance materials and nanotechnology.

Key Features

• Adjustable Height:Height ranges from 50 to 1000 microns, suitable for various application needs.
• High Purity:Carbon nanotubes have a purity of up to 98%, ensuring superior performance and stability.
• Multi-Walled Structure:Composed of 3 to 7 layers of carbon atoms, providing enhanced mechanical strength and thermal conductivity.
• Small Tube Diameter:The carbon nanotube diameter ranges from 3 to 10 nanometers, improving surface reactivity and electrical properties.

Applications

• Electronic Devices:Used in the production of high-performance conductive materials, sensors, and field-effect transistors.
• Energy Storage:Serves as an efficient electrode material for supercapacitors and lithium batteries, enhancing energy storage and output capabilities.
• Composite Materials:Improves the mechanical properties and conductivity of base materials like plastics, rubber, and metals.
• Catalysis:Acts as a catalyst support or catalyst itself, improving catalytic efficiency.
• Sensor Technology:Applied in gas sensors and biosensors, enhancing response speed and sensitivity.
• Thermal Management:With its high thermal conductivity, it is ideal for heat dissipation and thermal management systems in electronic devices.