Enhance Conductivity with High-Purity Carbon Nanotubes
Unlock superior performance in your materials with our 15-30nm Carbon Nanotubes, designed for advanced conductive applications.
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Carbon Nanotube (CNT) Powder
Our high-purity carbon nanotubes (CNTs) with an average diameter of 15-30nm offer exceptional electrical conductivity, thermal conductivity, and mechanical strength, making them ideal for enhancing the performance of advanced materials. These nanomaterials are critical for applications demanding superior electrical properties and structural integrity.
- Discover the advantages of using carbon nanotube powder for battery electrodes, significantly improving conductivity and energy density.
- Explore high conductivity carbon nanotubes from a trusted supplier, ensuring consistent quality for your advanced conductive material applications.
- Leverage the unique properties of 15-30nm carbon nanotubes to create next-generation composite materials with enhanced electrical and mechanical performance.
- Incorporate CNTs into energy storage devices to achieve breakthrough performance, from batteries to supercapacitors, boosting efficiency and lifespan.
Key Product Advantages
Exceptional Electrical Conductivity
Achieve unparalleled electrical performance in your products. Using our carbon nanotubes for battery electrodes can significantly boost conductivity, crucial for efficient energy transfer.
Superior Mechanical Strength
Enhance the durability and resilience of your composites. Carbon nanotube powder integrated into polymer matrices creates a 3D reinforcing network, improving overall material strength.
High Thermal Conductivity
Benefit from efficient heat dissipation. Our CNTs are excellent thermal conductors, vital for applications in electronics and thermal management systems.
Key Applications
Coatings
Impart permanent, uniform conductivity to industrial coatings. Our CNT powder provides anti-static properties and enhanced functionality for various coating systems.
Electronics Chemicals
Integrate CNTs into electronic components for improved conductivity and performance. They are vital for sensors and advanced electronic materials.
Composite Materials
Create high-performance composites by adding CNTs to polymer matrices, glass fiber, and carbon fiber filled plastics, forming a reinforcing network.
Battery Materials
Revolutionize energy storage devices. Our CNTs improve conductivity, increase surface area, and enhance charge storage capacity in batteries and supercapacitors.