Growth of nickel-catalyzed carbon nanofibers using MPCVD method and their electrical properties

Kim Sung-Hoon (김성훈)

Growth of nickel-catalyzed carbon nanofibers using MPCVD method and their electrical properties

Journal of the Korean Crystal Growth and Crystal Technology
Abbr : J. Korean Cryst. Growth Cryst. Technol.
2004, 14(1), pp.1-5
Publisher : The Korea Association Of Crystal Growth, Inc.
Research Area : Engineering > Materials Science and Engineering

Kim Sung-Hoon ¹

¹신라대학교

Accredited

ABSTRACT

Carbon nanofilaments were formed on silicon substrate via microwave plasma-enhanced chemical vapor deposition method. The structure of carbon nanofilaments was identified as the carbon nanofibers. The extent of carbon nanofibers growth and the diameters of carbon nanofibers increased with increasing the total pressure. The growth direction of carbon nanofibers was horizontal to the substrate. Laterally grown carbon nanofibers showed the semiconductor electrical characteristics.

KEYWORDS

Carbon nanofibers, Microwave plasma, Total pressure effect, Semiconductor characteristics, Lateral growth

Citation status

* References for papers published after 2023 are currently being built.

[journal] / 2003 / “New catalytic phenomena on nanostructured(fibers and tubes catalysts”) 216 : 333~

[journal] / 1998 / Synthesis of largearrays of well-aligned carbon nanotubes on glass 282 : 1105~

[journal] / 1969 / “Graphite formation from low temperaturepyrolysis of methane over some transition metalsurfaces” : 1044~221

[journal] / 2001 / Controlled growth ofwell-aligned carbon nanotubes with large diameters 340 : 419~

[journal] / 1991 / “Helical microtubules of graphitic carbon” : 3 56~354

[journal] / 2000 / Plasmainducedalignment of carbon nanotubes 77 : 830~

[journal] / 2001 / “Electronic properties of carbon nanostructures” 42 : 1~

[journal] / 2004 / Role of transition metalcatalysts in single-walled carbon nanotube growth inchemical vapor deposition

[journal] / 1999 / “Electrical conductivity and field emission characteristics of hot-pressed sintered carbon nanotubes” 34 : 741~

[journal] / 1989 / Catalytic growth of carbon filaments

[journal] / 2003 / “Surface morphology and field emission characteristics of carbon nanofiberfilms grown by chemical vapor deposition on alloy catalyst” 212 : 383~

[journal] / 2004 / Self-assembled interconnection by bamboolikecarbon nanotubes 24 : 297~

[journal] / 1997 / “Individual single-wall carbon nanotubes as quantum wires” 386 : 474~

[journal] / 1998 / Contacting carbon nanotubes selectively with lowohmiccontacts for four-probe electric measurements 73 : 274~

[journal] / 2002 / “Batch processing of nanometer-scale electrical circuitry based on in-situ grown single-walled carbon nanotubes 61 : 485~

[journal] / 1999 / Controlled ChemicalRoutes to Nanotube Architectures : 11246~

[journal] / 1994 / “Deposition of white diamond thin films by increasing the total pressure in a microwave-plasma-enhanced chemical vapour deposition system” : 109~

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Journal of the Korean Crystal Growth and Crystal Technology 2023 KCI Impact Factor : 0.19