Carbon Nanotubes Doped with 50 wt% Boron Nitride (BN) Nanopowder/Nanoparticles

Description

Carbon Nanotubes Doped with 50 wt% Boron Nitride (BN) Nanopowder/Nanoparticles

This advanced hybrid material combines high-purity multi-walled carbon nanotubes (MWCNTs) with boron nitride (BN) nanoparticles at 50 wt%, offering a multifunctional nanocomposite that enhances both mechanical and electrical performance. The result is a material ideal for use in nanocomposites, energy devices, electronics, and biomedical systems.

The BN nanoparticles in this composite feature a purity of 99.8%, an average particle size of 600 nm, and an irregular cubic shape. With a white color and a surface area between 1.0–6.0 m²/g, BN contributes excellent thermal stability and electrical insulation—while the carbon nanotubes ensure high electrical conductivity and mechanical strength.

Together, this combination allows for balanced performance in applications requiring both structural robustness and functional integration.

Technical Properties

Boron Nitride (BN) Nanopowder – 50 wt%

• Purity: 99.8%

• Average Particle Size: 600 nm

• Specific Surface Area: 1.0–6.0 m²/g

• Color: White

• Shape: Irregular cubic

Carbon Nanotubes (MWCNTs)

• Purity: > 97 wt%

• Average Outside Diameter: > 50 nm

• Average Inside Diameter: 5 nm

• Length: 15–25 µm

• Tap Density: 0.15 g/cm³

• True Density: ~2.4 g/cm³

• Specific Surface Area: > 65 m²/g

• Ash Content: < 1.5 wt%

• Electrical Conductivity: > 98 S/cm

• Color: Black

Key Applications

The combination of electrically conductive carbon nanotubes with thermally stable boron nitride offers versatile functionality across multiple sectors. Key application areas include:

1. Drug Delivery – Stable nanocarriers for targeted delivery

2. Biosensors – Dual-functionality with insulating BN and conductive CNTs

3. CNT Composites – Improved tensile strength and thermal tolerance

4. Catalysis – Enhanced support structures with BN

5. Nanoprobes – Hybrid sensing and targeting functions

6. Hydrogen Storage – Structural and thermal optimization

7. Lithium Batteries – Thermally stable and conductive composite electrodes

8. Gas-Discharge Tubes – Thermal resistance and arc control

9. Flat Panel Displays – Conductive-insulative layered designs

10. Supercapacitors – High-energy density and cycle stability

11. Transistors – Miniaturized hybrid circuits

12. Solar Cells – Composite substrates for enhanced charge mobility

13. Photoluminescence – Light emission modulation

14. Templates – Functional platforms for nanoscale construction

Whether you are designing next-generation energy devices or biocompatible materials, this BN-doped CNT nanocomposite provides a strong foundation for performance and innovation.