Product Overview
Hiyka's Carboxyl Multi-Walled Carbon Nanotubes, Variant 5, embody the pinnacle of nanotechnology engineering, tailored to deliver exceptional performance for demanding industrial and research applications. This advanced variant is characterized by its superior carboxyl (–COOH) functionalization, ensuring optimal dispersion, increased chemical reactivity, and unparalleled compatibility with diverse materials. Designed for sectors ranging from composite materials and electronics to energy storage and biomedical applications, our Variant 5 MWCNTs are a testament to our commitment to innovation, quality, and environmental responsibility.
Key factor
- Optimal Dispersion: Enhanced with carboxyl groups for superior dispersion in both aqueous and organic solvents, facilitating seamless integration into various matrices.
- Advanced Chemical Reactivity: The –COOH functionalization promotes easier covalent bonding, enabling extensive chemical modifications for specialized applications.
- Robust Mechanical Properties: Inherits the exceptional tensile strength and durability of MWCNTs, crucial for reinforcing advanced composite materials.
- Superior Electrical Conductivity: Maintains outstanding electrical conductivity, making it ideal for cutting-edge electronic and conductive applications.
- Versatile Application Potential: Tailored for a broad spectrum of applications, including but not limited to, composite materials, energy storage solutions, electronics, and biotechnology.
Applications
- High-Performance Composites: Significantly enhances the mechanical, electrical, and thermal properties of polymers, metals, and ceramics across automotive, aerospace, and construction industries.
- Next-Generation Electronics: Improves the efficacy and longevity of sensors, transistors, conductive inks, and films with its superior conductivity and durability.
- Innovative Energy Solutions: Boosts the performance of electrodes in lithium-ion batteries and supercapacitors, marking a significant step forward in energy storage technology.
- Biomedical Breakthroughs: Facilitates advancements in drug delivery, tissue engineering, and biosensing, benefiting from the biocompatibility and functionalizability of the carboxylated surface.
Advantages
- Customizable for Specific Needs: The carboxyl functionalization allows for extensive modifications, offering tailored solutions for unique application requirements.
- Enhanced Material Compatibility: Improves the integration of MWCNTs into a wide range of materials, leading to more effective and homogeneous composites.
- Eco-Friendly and Safe: Produced under stringent quality control standards, ensuring a high-quality, environmentally safe product for various applications.
- Pioneering Innovation: Drives the development of groundbreaking technologies, enabling new discoveries in material science and engineering.
References
- Hooker S. A. and Ph D. 2002 Nanotechnology Advantages Applied to Gas Sensor Development 1-7
- Lu Y. 2016 A carbon-nanotube-based sensor array for formaldehyde detection February 2011
- Kong J., Franklin N. R. and Zhou C. 2000 Nanotube Molecular Wires as Chemical Sensors 287 622-625 January
