Direct synthesis of nitrogen-doped narrow-diameter carbon nanotubes through floating-catalyst chemical vapor deposition with high hydrogen flow rate

Direct synthesis of nitrogen-doped narrow-diameter carbon nanotubes through floating-catalyst chemical vapor deposition with high hydrogen flow rate

The precise control of substitutional nitrogen (N) doping into a carbon nanotube (CNT) lattice is key to tuning their unique one-dimensional electronic properties. Here we report a direct synthesis of high-quality N-doped single-wall CNTs (N-SWCNTs) with ∼1 nm in diameter using a floating-catalyst c...

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Veröffentlicht in:Applied physics express 2023-09, Vol.16 (9), p.95001
Hauptverfasser: Li, Zhikai, Fujimori, Toshihiko, Jeong, Samuel, Inoue, Hirotaka, Sakai, Momoko, Akada, Keishi, Ito, Yoshikazu, Fujita, Jun-ichi
Format: Artikel
Sprache:eng
Schlagworte:
carbon nanotube
chemical doping
chemical vapor deposition
nitrogen doping
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Zusammenfassung:The precise control of substitutional nitrogen (N) doping into a carbon nanotube (CNT) lattice is key to tuning their unique one-dimensional electronic properties. Here we report a direct synthesis of high-quality N-doped single-wall CNTs (N-SWCNTs) with ∼1 nm in diameter using a floating-catalyst chemical vapor deposition under a high flow rate of hydrogen as a carrier gas. The high hydrogen flow rate enhances the total N content in the CNT lattice. The N-SWCNTs exhibit an n-type doping behavior induced by enriched graphitic-N as confirmed by Raman analysis. Our finding will be beneficial to tailoring the doping state of N-SWCNTs.
ISSN:1882-0778
1882-0786
DOI:10.35848/1882-0786/acf487