Amine Modified MWCNTs
Amine Modified MWCNTs
Amine Modified MWCNTs | |
Product No | NRE-34003 |
CAS No | 308068-56-6 |
Purity | >98wt% |
OD | 15-25nm |
Length | 5-15µm |
Amine (NH2) Surface-Modified | NA |
Bulk density | NA |
Color | Black |
Surface Area | NA |
Amine Modified MWCNTs
Introduction:
Amine modified MWCNTs are carbon nanotubes that have been chemically altered to introduce amine functional groups (-NH₂) onto their surfaces. This modification enhances their solubility, reactivity, and compatibility with various materials, allowing them to be used in a wide range of applications. The amine groups facilitate interactions with other molecules, making these modified MWCNTs particularly useful in fields such as biomedical engineering, materials science, energy storage, and environmental remediation.
Applications
Biomedical Applications:
Targeted Drug Delivery: Amine modified MWCNTs can be utilized as carriers for drugs, enabling controlled and targeted delivery to specific tissues or cells, particularly in cancer therapy.
Biosensors: Their surface modification enhances the sensitivity and specificity of biosensors, allowing for the detection of biomolecules, pathogens, and environmental pollutants.
Composite Materials:
Reinforcement in Polymers: When incorporated into polymer matrices, amine modified MWCNTs improve mechanical strength, electrical conductivity, and thermal stability, making them suitable for advanced materials in aerospace, automotive, and construction industries.
Energy Storage and Conversion:
Supercapacitors and Batteries: The functionalization enhances the electrochemical performance of MWCNTs, leading to increased charge capacity and cycling stability, which are critical for high-performance energy storage devices.
Fuel Cells: Amine modified MWCNTs serve as effective catalyst supports in fuel cells, enhancing the efficiency of catalytic reactions and overall fuel cell performance.
Environmental Applications:
Water Treatment: These MWCNTs can adsorb heavy metals and organic contaminants from water, making them effective for environmental remediation and water purification.
Air Filtration: Their high surface area and functional groups allow for the capture of harmful gases and particulates in air purification systems.
Electronics:
Conductive Inks: can be used in the development of conductive inks and coatings, facilitating the creation of flexible and printed electronic devices.
Sensors: They can also be utilized in electronic sensors due to their enhanced electrical properties, enabling real-time monitoring of various environmental conditions.
Agricultural Applications:
Soil Enhancements: can improve soil quality and nutrient uptake in plants, potentially leading to enhanced crop yields.
Pesticide Delivery: They can be used for the controlled release of pesticides and fertilizers, reducing environmental impact and improving efficiency.
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