Description

5 grams:170€
25 grams:345 €
100 grams:650€
500 grams: 1740€
1000 grams: 2950€

Please contact us for quotes on larger quantities !!!

Carbon Nanotubes Doped with 52 wt% Iron (Fe) Nanopowder/Nanoparticles

Carbon Nanotubes doped with 52 wt% Iron (Fe) nanoparticles combine the high electrical conductivity and mechanical resilience of CNTs with iron’s magnetic properties, catalytic activity, and structural reinforcement capacity. This hybrid material delivers enhanced hardness, tensile strength, and elastic modulus while maintaining high purity and dispersibility. The synergy between conductive CNT networks and Fe nanoparticles enables multifunctional performance in energy storage, electronics, biomedical systems, composites, and catalysis, positioning CNT–Fe hybrids as advanced materials for next-generation technologies.

Technical Properties

52 wt% Fe Nanopowder/Nanoparticles
Purity	99.99%
Average Particle Size (nm)	800
Specific Surface Area (m²/g)	1,0-5,0
True Density (g/cm³)	8,1
Color	dark grey
Shape	irregular
Carbon Nanotubes (Multi Walled Carbon Nanotubes)
Purity	> 97 wt%
Color	black
Average Outside Diameter (nm)	> 50
Average Inside Diameter (nm)	5
Length (µm)	15-25
Tap Density (g/cm3)	0.15
True Density (g/cm3)	~2.4
Specific Surface Area (m2/g)	> 65
Ash	< 1.5 wt%
Electrical Conductivity (S/cm)	> 98

Applications

Energy & Storage: CNT–Fe hybrids are applied in lithium-ion batteries and supercapacitors where CNTs provide conductive pathways and iron enhances electrode stability, redox activity, and cycle life, while hybrid porosity also supports hydrogen storage and efficient charge transfer.
Electronics & Optoelectronics: These composites are used in transistors, flat panel displays, and solar cells, combining CNT conductivity with iron’s magnetic and catalytic properties to improve charge transport, optical performance, and thermal stability, while also supporting photoluminescence and template-based nanofabrication.
Biomedical & Biosensing: CNT–Fe hybrids are explored in biosensors for sensitive detection and in drug delivery systems where iron’s magnetic response and CNT’s functional surfaces enable controlled release, targeting, and nanoprobes for imaging and diagnostics.
Composites & Structural Materials: In polymer and ceramic composites, CNT–Fe hybrids improve tensile strength, hardness, and elastic modulus, making them suitable for aerospace, automotive, and construction applications requiring lightweight yet durable materials with added conductivity.
Catalysis & Environmental: They act as catalyst supports in electrochemical and photocatalytic reactions, leveraging iron’s catalytic activity and CNT’s conductive scaffolds, while also being used in gas-discharge tubes, pollutant remediation, and environmental sensing.

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