Product Overview
Introducing Hiyka's Carboxyl Multi-Walled Carbon Nanotubes, Variant 3 – a specially designed nanomaterial that embodies the latest in carbon nanotube technology with enhanced carboxylation. This variant offers an optimal balance of surface chemistry and physical properties, making it ideal for a wide array of applications, from advanced composites and electronics to energy storage and environmental technologies. Our Variant 3 MWCNTs are engineered to provide superior dispersion, chemical reactivity, and mechanical strength, driving innovation and efficiency across industries.
Key factor
- Superior Dispersion: With a carboxyl (–COOH) content tailored for Variant 3, these MWCNTs exhibit excellent dispersion in both aqueous and organic solvents, enabling more uniform composite materials and coatings.
- Increased Chemical Reactivity: The functional carboxyl groups on the surface of the MWCNTs facilitate covalent bonding with a wide range of molecules, allowing for easy modification and integration into complex systems.
- Robust Mechanical Properties: Maintains the intrinsic tensile strength and durability of MWCNTs, crucial for enhancing the structural integrity of composite materials.
- Advanced Electrical Conductivity: Ideal for electronic applications requiring high conductivity, including conductive inks, coatings, and components.
- Enhanced Compatibility: The carboxyl functionalization improves compatibility with polymers and biological systems, expanding the potential for innovative applications in biotechnology and medicine.
Applications
- Composite Materials: Reinforces polymers and resins, providing enhanced strength, conductivity, and thermal stability for automotive, aerospace, and consumer electronics.
- Energy Storage Devices: Improves the performance of lithium-ion batteries and supercapacitors, offering higher energy densities and efficiency.
- Electronics and Sensing: Utilized in the development of sensors, transistors, and flexible electronics, where conductivity and flexibility are paramount.
- Biomedical Applications: Facilitates drug delivery systems, tissue engineering scaffolds, and diagnostic sensors, benefiting from improved biocompatibility and functionalization.
- Environmental Technologies: Applied in water treatment and air purification systems, leveraging the reactive surface for efficient adsorption of pollutants.
Advantages
Customizable Functionalization: Enables tailored chemical modifications to meet specific application requirements, offering unmatched versatility.
Improved Material Integration: Enhanced dispersion and reactivity lead to more effective integration into a variety of materials and matrices.
High-Quality Manufacturing: Produced with strict quality control measures to ensure purity, consistency, and superior performance across all applications.
Support for Sustainable Innovation: Drives the development of eco-friendly technologies and materials, contributing to environmental sustainability.
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