Transferred Carbon Nanotube Vertical Array (Plastic Substrate)

Product Overview
The transferred carbon nanotube vertical array (plastic substrate) is an array structure formed by vertically aligning carbon nanotubes on a plastic substrate using precise transfer technology. This product combines the unique properties of carbon nanotubes with the plastic substrate's flexibility, making it suitable for various high-performance applications.

Key Features

• Adjustable Height:The height ranges from 300 to 1000 microns, allowing selection based on application needs.
• High Purity:With carbon nanotube purity greater than 95%, this product ensures excellent conductivity and mechanical performance.
• Good Alignment:The vertical arrangement of the carbon nanotubes enhances the mechanical strength and electrical properties of the array.
• Lightweight and Durable:The plastic substrate provides both lightweight characteristics and sufficient mechanical strength.

Applications

• Electronic Devices:Used in the production of conductive materials, sensors, and other electronic components.
• Energy Storage:Suitable as electrode material for supercapacitors, batteries, and other energy storage devices.
• Catalyst Supports:With its large surface area, it can be used in catalytic reactions and as a catalyst support.
• Composite Materials:Enhances the mechanical properties and conductivity of plastics, rubber, and other materials.
• Sensor Technology:Ideal for gas sensors, biosensors, and other applications requiring excellent response performance.
• Thermal Management:Its good thermal conductivity makes it suitable for thermal management and heat dissipation applications.