693.932 PEOPLE
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| Naji, M. |
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| Petrov, R. H. | Madrid |
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| Azevedo, Nuno Monteiro |
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Maurice, Jean-Luc
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Topics
Publications (15/15 displayed)
- 2024Reducing two-level system dissipations in 3D superconducting Niobium resonators by atomic layer deposition and high temperature heat treatmentcitations
- 2024Reducing two-level systems dissipations in 3D superconducting niobium resonators by atomic layer deposition and high temperature heat treatmentcitations
- 2023Reactive plasma sputtering deposition of polycrystalline GaN thin films on silicon substrates at room temperaturecitations
- 2023Evolution of Cu-In Catalyst Nanoparticles under Hydrogen Plasma Treatment and Silicon Nanowire Growth Conditionscitations
- 2020Hydrogen Plasma-Assisted Growth of Gold Nanowirescitations
- 2019Heteroepitaxial growth of silicon on GaAs via low-temperature plasma-enhanced chemical vapor depositioncitations
- 2018Heteroepitaxial growth of Silicon on GaAs via low temperature plasma-enhanced chemical vapor deposition
- 2016Low temperature plasma enhanced CVD epitaxial growth of silicon on GaAs: a new paradigm for III-V/Si integrationcitations
- 2012Different mechanisms of graphene wall nucleation on Fe and Ni particles
- 2011Vertically oriented nickel nanorod/carbon nanofiber core/shell structures synthesized by plasma-enhanced chemical vapor depositioncitations
- 2011Iron catalysts for the growth of carbon nanofibers : Fe, Fe_{3}C$ or both?
- 2011Synthesis of few-layered graphene by ion implantation of carbon in nickel thin filmscitations
- 2010Iron catalyst for the growth of carbon nanofibers: Fe, Fe3C or both?citations
- 2010Nickel catalyst faceting in plasma-enhanced direct current chemical vapor deposition of carbon nanofibers
- 2006Interfaces in {100} epitaxial heterostructures of perovskite oxidescitations
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article
Nickel catalyst faceting in plasma-enhanced direct current chemical vapor deposition of carbon nanofibers
Abstract
8 pages ; International audience ; Vertically aligned multi-walled carbon nanofibers (CNFs) were grown by plasma-enhanced chemical vapor deposition with Ni catalysts on the top of nanofibers. Transmission electron microscopy was used to study the morphology and crystallography of Ni catalysts, which are essential for the nucleation and growth of CNFs. A model for the faceted shape of Ni catalytic particles is proposed. It is shown that the exposed polyhedral surfaces of Ni catalytic particles for vertically aligned CNFs are composed of {111}, {110}, and {100}, a faceting that appears to be characteristic of the growth atmosphere.