Name: Graphitized Carboxyl Multi Walled Carbon Nanotube
Availability: InStock

Product Overview

Hiyka's Graphitized Carboxyl Multi-Walled Carbon Nanotubes are a state-of-the-art nanomaterial designed to bridge the gap between high-performance conductivity and chemical functionality. By incorporating graphitization with carboxyl (–COOH) functionalization, these MWCNTs offer an exceptional balance of electrical and thermal conductivity, mechanical strength, and chemical reactivity. Ideal for cutting-edge applications in composite materials, energy storage, electronics, and catalysis, our graphitized carboxyl MWCNTs are tailored to meet the demanding requirements of both research and industry.

Key factor

Enhanced Conductivity: The graphitization process significantly increases electrical and thermal conductivity, suitable for high-performance electronic and thermal management applications.
Chemical Functionality: Carboxyl groups on the surface enhance solubility in various solvents and enable easy functionalization for a wide range of chemical reactions.
Improved Mechanical Strength: Graphitization reinforces the structural integrity of MWCNTs, providing superior strength and durability to composites.
High Thermal Stability: Maintains performance and stability at elevated temperatures, making it ideal for applications requiring high thermal resistance.
Versatile Application: The combination of conductivity, chemical functionality, and mechanical strength opens up a wide range of application possibilities.

Applications

Composite Materials: Enhances the mechanical, electrical, and thermal properties of polymers and resins for automotive, aerospace, and electronics industries.
Energy Storage: Improves the efficiency and capacity of batteries and supercapacitors, leveraging high conductivity and surface area.
Electronics: Key component in the development of conductive inks, flexible electronics, and semiconductor devices.
Catalysis and Sensors: Utilized in catalytic converters, environmental sensors, and biosensors, benefiting from surface reactivity and conductivity.
Environmental Remediation: Effective in pollutant adsorption and filtration processes, thanks to high surface area and chemical reactivity.

Advantages

Superior Performance: Combines high conductivity with functional surface chemistry, offering unparalleled performance in various applications.
Customizable Functionalization: Carboxyl groups provide a versatile platform for further chemical modifications, tailoring the nanotubes to specific needs.
Sustainable and Eco-Friendly: Supports the development of green technologies and sustainable materials in various industries.
High-Quality Production: Manufactured using advanced techniques to ensure purity, uniformity, and consistency across batches.
Scalable for Industrial Use: Available in bulk quantities to meet the demands of large-scale production and application.

References

Su P. and Tsai J. 2009 Sensors and Actuators B : Chemical Low-humidity sensing properties of carbon nanotubes measured by a quartz crystal microbalance 135 506-511

Varghese O. K., Kichambre P. D., Gong D., Ong K. G., Dickey E. C. and Grimes C. A. 2001 Gas sensing characteristics of multi-wall carbon nanotubes 81 32-41

Liu L., Ye X., Wu K., Han R., Zhou Z. and Cui T. 2009 Humidity Sensitivity of Multi- Walled Carbon Nanotube Networks Deposited by Dielectrophoresis 1714-1721

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