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Review Article
Modern Electronic Materials 8(1): 23-42
https://doi.org/10.3897/j.moem.8.1.84317 (12 Apr 2022)
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  • 1. Introduction
  • 2. Scientific prerequisites for boron modification of pure carbon nanotubes
  • 3. Boron-carbon nanotube synthesis methods
    • 3.1. Electric arc method
    • 3.2. Laser ablation
    • 3.3. Substitution reaction
    • 3.4. Chemical vapor deposition (CVD)
  • 4. Comparison between methods of synthesizing carbon nanotubes with boron impurity atoms
  • 5. Properties of carbon nanotubes containing boron impurity atoms
  • 6. Physical properties
    • 6.1. Electronic properties of boron-containing nanotubes
    • 6.2. Mechanical and thermal properties
    • 6.3. Chemical properties
  • 7. Experimental studies of atomic hydrogen adsorption on the surface of boron-carbon nanotubes
  • 8. Experimental studies of oxygen interaction with boron-containing nanotubes
  • 9. Experimental studies of carbon-containing nanotubes with boron impurity atoms
  • 10. Potential applications of boron-carbon nanotubes
    • 10.1. Hydrogen storage
    • 10.2. Catalyst applications
    • 10.3. Electric catalysis
    • 10.4. Sensors
  • 11. Simulation of carbon nanotubes with different contents of boron impurity atoms
  • 12. Conclusions
  • References
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