Product Overview
Introducing Hiyka's Series 2 Graphitized Multi-Walled Carbon Nanotubes, a revolutionary advancement in carbon nanotube technology designed to empower the next generation of engineering and scientific breakthroughs. Our Series 2 MWCNTs have been meticulously graphitized, enhancing their electrical and thermal conductivity, while retaining the exceptional mechanical strength and durability carbon nanotubes are renowned for. Engineered for versatility, these MWCNTs are the ideal choice for a broad range of high-performance applications, including electronics, energy storage, composite materials, and thermal management solutions.
Key factor
Exceptional Electrical Conductivity: Elevated through a precise graphitization process, optimizing performance in electronic devices and conductive applications.
Superior Thermal Conductivity: Facilitates efficient heat dissipation, critical for thermal management in high-performance electronics and devices.
Robust Mechanical Strength: Enhances the durability and tensile strength of composite materials, offering lightweight yet strong solutions for automotive and aerospace industries.
High Structural Integrity: Graphitization ensures a consistent, high-quality structure, providing reliable performance across a variety of applications.
Wide Application Range: Adaptability of these MWCNTs makes them suitable for groundbreaking work in fields ranging from electronics to energy solutions.
Applications
Electronics: Integral for developing conductive inks and coatings, flexible electronics, and enhancing the conductivity of semiconductor devices.
Energy Storage: Crucial for improving the efficiency and performance of batteries and supercapacitors, leveraging their high conductivity.
Composite Materials: Provides significant improvements in the mechanical properties of polymers, metals, and ceramics for industrial applications.
Thermal Management: Essential in designing effective heat sinks, thermal interface materials, and other systems requiring superior heat conduction.
Catalysis: Offers a conductive and durable support material for catalysts in chemical reactions, improving efficiency and selectivity.
Advantages
- Advanced Material Performance: Delivers unparalleled improvements in conductivity, mechanical strength, and thermal stability.
- Innovative Solution Enabler: Facilitates the development of cutting-edge technologies and materials, driving forward scientific and industrial advancements.
- Environmentally Sustainable: Supports the creation of more efficient and durable materials, contributing to sustainability efforts across industries.
- Reliable Quality: Manufactured with an emphasis on purity and consistency, ensuring top performance and reliability for critical applications.
- Scalable for Industrial Needs: Available in quantities suitable for large-scale production, meeting the rigorous demands of industrial applications.
References
- Electrochemical behavior and adsorptive stripping voltammetric determination of quercetin at multi-wall carbon nanotubes-modified paraffin-impregnated graphite disk …, GP Jin, JB He, ZB Rui, FS Meng - Electrochimica Acta, 2006 - Elsevier
- Solvothermal one-step synthesis of Ni–Al layered double hydroxide/carbon nanotube/reduced graphene oxide sheet ternary nanocomposite with ultrahigh …, W Yang, Z Gao, J Wang, J Ma, M Zhang… - ACS applied materials & …, 2013 - ACS Publications
- Effect of graphite oxide and multi-walled carbon nanotubes on the microstructure and performance of PVDF membranes, Y Zhao, Z Xu, M Shan, C Min, B Zhou, Y Li, B Li… - Separation and …, 2013 - Elsevier