0000000000415071

AUTHOR

Julio A. Rodríguez-manzo

showing 4 related works from this author

In situ nucleation of carbon nanotubes by the injection of carbon atoms into metal particles.

2007

The synthesis of carbon nanotubes (CNTs) of desired chiralities and diameters is one of the most important challenges in nanotube science and achieving such selectivity may require a detailed understanding of their growth mechanism. We report the formation of CNTs in an entirely condensed phase process that allows us, for the first time, to monitor the nucleation of a nanotube on the spherical surface of a metal particle. When multiwalled CNTs containing metal particle cores are irradiated with an electron beam, carbon from graphitic shells surrounding the metal particles is ingested into the body of the particle and subsequently emerges as single-walled nanotubes (SWNTs) or multiwalled nan…

NanotubeMaterials scienceMacromolecular SubstancesSurface PropertiesBiomedical EngineeringSelective chemistry of single-walled nanotubesNucleationMolecular Conformationchemistry.chemical_elementBioengineeringNanotechnologyMechanical properties of carbon nanotubesCarbon nanotubelaw.inventionCondensed Matter::Materials SciencelawMaterials TestingNanotechnologyGeneral Materials ScienceElectrical and Electronic EngineeringParticle SizeNanotubes CarbonCondensed Matter::Mesoscopic Systems and Quantum Hall EffectCondensed Matter PhysicsAtomic and Molecular Physics and OpticsCarbonOptical properties of carbon nanotubeschemistryChemical engineeringMetalsParticleCrystallizationCarbonNature nanotechnology
researchProduct

Electron Irradiation Effects in Carbon Nanostructures: Surface Reconstruction, Extreme Compression, Nanotube Growth and Morphology Manipulation

2008

It will be demonstrated, that irradiation exposure at elevated temperatures, can be used as an effective tool to covalently weld SWNTs in order to create molecular junctions of various geometries [1–3]. We have fabricated Y, X and T-like junctions that are stable [2]. Tight binding molecular dynamics calculations demonstrate that vacancies, formed under the electron beam, trigger the formation of molecular junctions involving seven or eight membered carbon rings. We envisage that these results will pave the way towards controlled fabrication of novel nanotube-based molecular circuits, nanotube fabrics and network architectures. In this context, novel super architectures, using carbon nanotu…

NanotubeFabricationMaterials sciencechemistry.chemical_elementNanotechnologyContext (language use)Carbon nanotubelaw.inventionChemical engineeringchemistrylawMelting pointElectron beam processingGraphiteCarbon
researchProduct

Ion irradiation of carbon nanotubes encapsulating cobalt crystals

2008

Abstract The response of multi-walled carbon nanotubes encapsulating Co nanorods to ion irradiation was studied. The irradiation experiments with medium ion energies (40–500 keV) were carried out at high temperatures and combined with transmission electron microscopy and Raman characterization of the irradiated samples. Contrary to electron irradiation and high-energy (100 MeV) ion irradiation, we did not see accumulation of pressure inside irradiated nanotubes. We found that nanotubes with Co nanorods inside were transformed to amorphous carbon rods encapsulating Co clusters with typical diameters of 3–6 nm. As Co is magnetic, such one-dimensional composite systems could be used for variou…

Materials sciencePhysics::Instrumentation and DetectorsPhysics::Medical PhysicsNanotechnology02 engineering and technologyCarbon nanotube01 natural sciencesIonlaw.inventionCondensed Matter::Materials Sciencesymbols.namesakelaw0103 physical sciencesElectron beam processingIrradiation010306 general physics021001 nanoscience & nanotechnologyCondensed Matter PhysicsAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsAmorphous carbonChemical engineeringTransmission electron microscopysymbolsNanorod0210 nano-technologyRaman spectroscopyPhysica E: Low-dimensional Systems and Nanostructures
researchProduct

Carbon nanotubes as high-pressure cylinders and nanoextruders.

2006

Closed-shell carbon nanostructures, such as carbon onions, have been shown to act as self-contracting high-pressure cells under electron irradiation. We report that controlled irradiation of multiwalled carbon nanotubes can cause large pressure buildup within the nanotube cores that can plastically deform, extrude, and break solid materials that are encapsulated inside the core. We further showed by atomistic simulations that the internal pressure inside nanotubes can reach values higher than 40 gigapascals. Nanotubes can thus be used as robust nanoscale jigs for extruding and deforming hard nanomaterials and for modifying their properties, as well as templates for the study of individual n…

NanotubeMultidisciplinaryMaterials sciencechemistry.chemical_elementInternal pressureMechanical properties of carbon nanotubesNanotechnology02 engineering and technologyCarbon nanotube010402 general chemistry021001 nanoscience & nanotechnology01 natural sciences0104 chemical sciencesNanomaterialslaw.inventionCarbon nanobudchemistrylawElectron beam processingComposite material0210 nano-technologyCarbonScience (New York, N.Y.)
researchProduct