Product Overview
Hiyka's Carboxyl Multi-Walled Carbon Nanotubes, Variant 4, are at the forefront of nanomaterial technology, designed to deliver unparalleled performance and versatility across a broad spectrum of industrial and research applications. With a focus on carboxyl (–COOH) functionalization, Variant 4 MWCNTs offer enhanced dispersion in various solvents and matrices, increased reactivity for further chemical modifications, and superior compatibility with a wide range of materials. Ideal for innovators in the fields of composite materials, electronics, energy storage, and biotechnology, our Variant 4 MWCNTs embody our commitment to quality, innovation, and environmental sustainability.
Key factor
- Enhanced Dispersion: Carboxyl functionalization significantly improves solubility and dispersion, facilitating seamless integration into composite materials and formulations.
- Increased Chemical Reactivity: The presence of –COOH groups on the MWCNT surface promotes covalent bonding with diverse molecules, enabling tailored modifications for specialized applications.
- Exceptional Mechanical Strength: Maintains the high tensile strength and durability inherent to MWCNTs, critical for reinforcing advanced composite materials.
- Electrical Conductivity: Preserves the intrinsic electrical conductivity, making it suitable for a variety of electronic applications, including conductive inks and EMI shielding.
- Broad Application Range: Designed for use in high-performance composites, energy storage devices, electronic components, and biotechnological applications.
Applications
- Composite Materials: Reinforces polymers, metals, and ceramics, enhancing mechanical, electrical, and thermal properties for automotive, aerospace, and construction industries.
- Advanced Electronics: Improves the performance and durability of sensors, transistors, and conductive films, leveraging superior conductivity and flexibility.
- Energy Storage Solutions: Enhances electrodes in lithium-ion batteries and supercapacitors, offering improved energy density and charge rates.
- Biomedical Innovations: Supports drug delivery systems, tissue engineering, and biosensing applications, benefiting from improved biocompatibility and chemical functionality.
- Environmental Remediation: Applied in cutting-edge adsorbents for water and air purification, utilizing the reactive surface for efficient pollutant capture.
Advantages
- Versatile Functionalization: Allows for extensive chemical modifications to meet specific needs, offering unparalleled versatility across applications.
- Improved Material Compatibility: Facilitates the incorporation of MWCNTs into a wide array of materials, leading to more effective and homogeneous composites.
- High-Quality Production: Manufactured under stringent quality control standards to ensure purity, consistency, and performance across all applications.
- Support for Eco-Friendly Innovation: Promotes the development of sustainable technologies and materials, aligning with environmental safety standards.
- Scalable for Industrial Use: Available in bulk quantities to meet the demands of large-scale applications without compromising quality or performance.
References
- Kharlamova M. V 2017 Investigation of growth dynamics of carbon nanotubes Investigation of growth dynamics of carbon nanotubes April.
- Basu T., Solanki P. R., Malhotra B. D. and Polymer C. 2008 Recent Advances in Carbon Nanotubes Based Biosensors.
- Gabriel G. and Gabriel G. 2017 Preparation and Characterisation of Single- Walled Carbon Nanotubes Functionalised with Amines Preparation and characterisation of singlewalled carbon August 2006
10 gram