Self-assembled isolated monodisperse NiO1+γ nanoparticles as catalytic templates for nanomaterials synthesis

We present the self-organization of isolated monodisperse nickel oxide (NiO1+γ) nanoparticles on surfaces of arbitrary area sizes. Ni films deposited on titanium oxynitride support films are annealed in a nitrogen/air environment at atmospheric pressure for various annealing times. After the anneali...

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Bibliographic Details
Published in:Materials chemistry and physics 2012-07, Vol.135 (1), p.38-45
Main Authors: Houweling, Z. Silvester, Geus, John W., Harks, Peter-Paul R.M.L., Heller, René, Schropp, Ruud E.I.
Format: Article
Language:English
Subjects:
Carbon nanotubes
Nanoparticles
Nickel oxide
Self-organization & patterning
Surface diffusion
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Summary:We present the self-organization of isolated monodisperse nickel oxide (NiO1+γ) nanoparticles on surfaces of arbitrary area sizes. Ni films deposited on titanium oxynitride support films are annealed in a nitrogen/air environment at atmospheric pressure for various annealing times. After the annealing treatments, randomly distributed spatially isolated NiO1+γ nanoparticles that are anchored to the support film are observed with a site-density of 11 ± 1 μm−2 and with dimensions of 16 ± 2 nm in height and 82 ± 10 nm in diameter. The anchored nanoparticles, once formed, are immobile during further annealing, even for annealing times of 40 min or annealing temperatures of 800 °C, making the nanoparticle formation a well-controlled process that yields templates suitable for further processing at elevated temperatures. We demonstrate the utilization of these NiO1+γ nanoparticle templates as nucleation sites for carbon nanotubes at temperatures of around 680 °C. ► Controlled self-organization of isolated monodisperse NiO nanoparticle templates on surfaces of arbitrary area sizes. ► Nanoparticle templates with anchored NiO particles that are suitable for further processing at elevated temperatures. ► Successful synthesis of carbon nanotubes using the nanoparticle templates.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2012.03.084