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Mechanism of the initial stages of nitrogen-doped single-walled carbon nanotube growth

Abstract:

We have studied the mechanism of the initial stages of nitrogen-doped single-walled carbon nanotube growth illustrated for the case of a floating catalyst chemical vapor deposition system, which uses carbon monoxide (CO) and ammonia (NH3) as precursors and iron as a catalyst. We performed first-principles electronic-structure calculations, fully incorporating the effects of spin polarization and magnetic moments, to investigate the bonding and chemistry of CO, NH3, and their fragments on a model Fe 55 icosahedral cluster. A possible dissociation path for NH 3 to atomic nitrogen and hydrogen was identified, with a reaction barrier consistent with an experimentally determined value we measured by tandem infrared and mass spectrometry. Both C-C and C-N bond formation reactions were found to be barrierless and exothermic, while a parasitic reaction of HCN formation had a barrier of over 1 eV. © the Owner Societies.

Año de publicación:

2011

Keywords:

    Fuente:

    scopusscopus

    Tipo de documento:

    Conference Object

    Estado:

    Acceso restringido

    Áreas de conocimiento:

    • Nanotubo de carbono
    • Ciencia de materiales
    • Ciencia de materiales

    Áreas temáticas:

    • Ingeniería y operaciones afines
    • Ingeniería química

    Contribuidores:

    Jiang T.Jiang T.
    Nasibulin A.G.Nasibulin A.G.
    Paola A. AyalaPaola A. Ayala
    Laasonen K.Laasonen K.
    Bligaard T.Bligaard T.
    Kauppinen E.I.Kauppinen E.I.
    Lanzani G.Lanzani G.
    Susi T.Susi T.