1 gram/85 €
5 grams/368 €    
25 grams/1375€     
100 grams/ 3498€                                                

Nitrogen-doped Multi Walled Carbon Nanotubes 

Technical Properties

Nitrogen-doped multi-walled carbon nanotubes (N-MWCNTs) are advanced nanostructured materials synthesized via chemical vapor deposition (CVD). The incorporation of nitrogen atoms into the carbon lattice enhances their electrical conductivity, chemical reactivity, and surface functionality compared to conventional carbon nanotubes. With high purity, controlled dimensions, and large specific surface area, N-MWCNTs exhibit excellent mechanical strength, stability, and tunable electronic properties. Their unique combination of conductivity, catalytic activity, and biocompatibility makes them suitable for a wide range of industrial, energy, and biomedical applications.

Applications

• Drug Delivery: Serve as carriers for targeted delivery of therapeutic agents due to their biocompatibility and functionalized surfaces.
• Biosensors: Enable sensitive detection of biomolecules through enhanced electron transfer and surface reactivity.
• CNT Composites: Reinforce polymers and ceramics, improving mechanical strength, conductivity, and durability.
• Catalysis: Act as supports or active catalysts in chemical reactions, benefiting from nitrogen-induced active sites.
• Nanoprobes: Applied in imaging and diagnostic tools for nanoscale precision.
• Hydrogen Storage: Provide high surface area and tailored pore structures for efficient hydrogen adsorption.
• Lithium Batteries: Used as conductive additives and anode materials to improve capacity and cycling stability.
• Gas-Discharge Tubes: Incorporated in protective devices for electrical systems due to high conductivity.
• Flat Panel Displays: Enhance electron emission properties for display technologies.
• Supercapacitors: Improve energy storage performance with high conductivity and surface area.
• Transistors: Applied in nanoelectronics for high-speed, low-power devices.
• Solar Cells: Function as conductive scaffolds and electron transport layers to boost efficiency.
• Photoluminescence: Explored in optical devices and sensors for light emission applications.
• Templates: Used as structural guides in nanofabrication and material synthesis. 

Please click for the MSDS