Search results for "Ligand cone angle"

showing 6 items of 6 documents

Solvent features of cluster single-wall C, BC2N and BN nanotubes, cones and horns

2013

Graphical abstractDisplay Omitted Highlights? It is discussed single-wall carbon, BC2N and BN nanocones in organic solvents in cluster form. ? Theory is developed based on a cluster bundlet model describing distribution function by size. ? There is explanation in which (BC2N/BN-)SWNC free energy is combined from two components. ? Bundlet model enables describing the distribution function of (BC2N/BN-)SWNC clusters by size. ? From purely geometrical differences, bundlet and droplet models predict different behaviours. It is discussed the existence of single-wall carbon nanocones (SWNCs), especially nanohorns (SWNHs), and BC2N/boron nitride (BN) analogues in organic solvents in cluster form; …

Materials scienceCarbon nanotubeDisclinationCondensed Matter PhysicsMolecular physicsAtomic and Molecular Physics and OpticsSurfaces Coatings and FilmsElectronic Optical and Magnetic Materialslaw.inventionchemistry.chemical_compoundDistribution functionchemistryComputational chemistryBoron nitridelawCluster (physics)MoleculeLigand cone angleElectrical and Electronic EngineeringCarbon nanoconeMicroelectronic Engineering
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Reproducible optical fiber tips for photon scanning tunneling microscopy with very small (>5°) cone angle

1998

Sharp optical fiber tips for photon scanning tunneling microscopes (PSTMs) have been fabricated by employing a new alternative technique for etching multimode optical fibers. The tip diameter is less than 30 mm, while the cone full-angle can be as sharp as 3/spl deg/. To the knowledge of the authors, such tips are the sharpest reported up to now. Measurements, with 19 tips, of the evanescent wave decay distance produced by frustrated reflection of light on a same sample, show good reproducibility. Furthermore, the PSTM images, taken with the new tips, are very sharp and fit with images of the same sample obtained with an atomic force microscope (AFM).

Optical fiberMaterials sciencePhotonMulti-mode optical fiberMicroscopeScanning electron microscopebusiness.industryPhysics::OpticsAtomic and Molecular Physics and Opticslaw.inventionOpticsOptical microscopelawLigand cone angleScanning tunneling microscopebusinessJournal of Lightwave Technology
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Transition from ideal to viscous Mach cones in a kinetic transport approach

2012

Using a microscopic transport model we investigate the evolution of conical structures originating from the supersonic projectile moving through the hot matter of ultrarelativistic particles. Using different scenarios for the interaction between projectile and matter, and different transport properties of the matter, we study the formation and structure of Mach cones. Especially, a dependence of the Mach cone angle on the details and rate of the energy deposition from projectile to the matter is investigated. Furthermore, the two-particle correlations extracted from the numerical calculations are compared to an analytical approximation. We find that the propagation of a high energetic parti…

PhysicsNuclear and High Energy PhysicsNuclear Theoryta114Shock (fluid dynamics)ProjectileFOS: Physical sciencesMechanicsMach waveKinetic energyNuclear Theory (nucl-th)High Energy Physics - Phenomenologysymbols.namesakeViscosityHigh Energy Physics - Phenomenology (hep-ph)Classical mechanicsMach numbersymbolsLigand cone angleSupersonic speedPhysics Letters B
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The oligomerisation of 3-hydroxy-1-alkynes with palladium(II) diketonates and phosphorus ligands as the catalytic system

1993

Abstract 3-Methylhex-1-yne-3-ol has been oligomerised by use of Pd(II) acetylacetonate with 31 different phosphorus ligands as catalyst, yielding a dimer (2,4-disubstituted but-1-en-3-yne) and a linear trimer (1,4,6-trisubstituted hexa-1,3-dien-5-yne) as the two main products. By input-output relations a variation of the diketonate and the P ligand, as weil as an alteration of the phosphorus/palladium ratio, has been connected with product ratios as dependent variables. Phosphines produced three association steps up to a cone angle of 170°; the third step representing a stop complex. For the first association the activity of the catalytic system and the portion of the 2,4-dimer increased wi…

Steric effectsLigandDimerAcetylacetonechemistry.chemical_elementTrimerMedicinal chemistryCatalysisInorganic Chemistrychemistry.chemical_compoundchemistryMaterials ChemistryOrganic chemistryLigand cone anglePhysical and Theoretical ChemistryPalladiumInorganica Chimica Acta
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Bundlet Model of Single- Wall Carbon, BC2N and BN Nanotubes, Cones and Horns in Organic Solvents

2013

Bundlet Model of Single- Wall Carbon, BC2N and BN Nanotubes, Cones and Horns in Organic Solvents The existence of Single-wall C-nanocones (SWNCs), especially nanohorns (SWNHs) and BC2N/Boron Nitride (BN) analogues is discussed in organic solvents in cluster form. A theory is developed based on the bundlet model, describing distribution function by size. The phenomena present unified explanation in the model, in which free energy of (BC2N/BN )SWNCs involved in cluster, is combined from two components: volume one proportional to the number of molecules n in cluster and surface one, to n1/2. The model enables describing distribution function of (BC2N/BN )SWNC clusters by size. From geometrical…

Structural asymmetryMaterials sciencechemistry.chemical_elementNanotechnologyDisclinationMolecular physicschemistry.chemical_compoundDistribution functionchemistryBoron nitrideCluster (physics)MoleculeLigand cone angleCarbonJournal of Nanomaterials & Molecular Nanotechnology
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Bundlet Model for Single-Wall Carbon Nanotubes, Nanocones and Nanohorns

2012

This paper discusses the existence of single-wall carbon nanocones (SWNCs), especially nanohorns (SWNHs), in organic solvents in the form of clusters. A theory is developed based on a bundlet model describing their distribution function by size. Phenomena have a unified explanation in bundlet model in which free energy of an SWNC, involved in a cluster, is combined from two components: a volume one, proportional to number of molecules n in a cluster, and a surface one proportional to n1/2. Bundlet model enables describing distribution function of SWNC clusters by size. From purely geometrical differences, bundlet (SWNCs) and droplet (fullerene) models predict different behaviours. The SWNCs…

Surface (mathematics)Materials scienceFullereneDistribution functionlawChemical physicsCluster (physics)MoleculeNanotechnologyLigand cone angleCarbon nanotubeCarbon nanoconelaw.inventionInternational Journal of Chemoinformatics and Chemical Engineering
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