25 grams: 195 €  
100 grams: 370€  
500 grams: 960€
1000 grams: 1450€                     
 
Please contact us for quotes on larger quantities !!! 

Carbon Nanotubes Doped with 12 wt% Aluminum (Al) Nanopowder/Nanoparticles 

Carbon Nanotubes doped with aluminum nanoparticles combine CNTs’ excellent electrical conductivity and mechanical resilience with aluminum’s lightweight nature, corrosion resistance, and thermal conductivity. The hybrid composite forms a uniform and stable structure that enhances hardness, tensile strength, specific strength, and elastic modulus. This synergy makes CNT–Al hybrids multifunctional materials suitable for energy storage, electronics, biomedical systems, catalysis, and advanced composites.

Technical Properties

Applications

• Energy & Storage: Aluminum–CNT composites are being investigated as lightweight current collectors and electrodes in lithium-ion batteries and supercapacitors. The aluminum provides low density and high thermal conductivity, while CNTs maintain electrical pathways without sacrificing strength. Their combination reduces weight while preserving conductivity, which is critical for aerospace energy systems and portable electronics.
• Structural & Industrial Materials: Research shows CNT reinforcement in aluminum matrices significantly improves specific stiffness, tensile strength, and elastic modulus. This makes them suitable for automotive and aerospace structural components, where weight reduction and mechanical durability are equally important. Aluminum’s corrosion resistance combined with CNTs’ resilience also supports marine and defense applications.
• Electronics & Thermal Management: CNT–Al hybrids are used in heat dissipation systems for electronics, leveraging aluminum’s thermal conductivity and CNTs’ networked structure to reduce electron scattering while maintaining conductivity. Applications include heat sinks, conductive films, and interconnects in microelectronics.
• Biomedical & Biosensing: While less common than Ag or Fe doping, CNT–Al composites are explored for biosensor substrates where aluminum’s biocompatibility and CNTs’ functional surfaces enable stable signal transduction. Potential use in drug delivery carriers is noted, though aluminum’s reactivity requires careful surface modification. 
• Catalysis & Environmental: CNT–Al composites act as catalyst supports in electrochemical reactions, where aluminum stabilizes the matrix and CNTs provide conductivity. They are also studied for environmental sensing and pollutant remediation, particularly in systems requiring lightweight, conductive, and chemically stable materials.

Please click for the MSDS