Search results for "Metal clusters"

showing 10 items of 32 documents

Production and investigation of multiply charged metal clusters in a Penning trap

1996

Singly charged gold cluster ions from a laser-vaporization source are transferred into a Penning trap and subjected to electron bombardment. The charged reaction products are analyzed by time-of-flight mass spectrometry after axial ejection from the trap. They include singly charged cluster fragments, multiply charged clusters of the initial size and multiply charged cluster fragments. The multiply charged clusters are selected and further investigated by collision induced dissociation. Two types of reactions can be distinguished: Dissociation into several charged fragments and evaporation of neutrals. Several features of multiply charged clusters relevant for future investigations are revi…

Nuclear and High Energy PhysicsGold clusterCollision-induced dissociationChemistryCondensed Matter PhysicsMass spectrometryPenning trapAtomic and Molecular Physics and OpticsDissociation (chemistry)IonCluster (physics)Physical and Theoretical ChemistryAtomic physicsNuclear ExperimentMetal clustersHyperfine Interactions

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Production of dianionic and trianionic noble metal clusters in a Penning trap

2003

Abstract Metal clusters, Aun−, Agn−, and Cun−, from a laser vaporization source are transferred to a Penning trap and subjected to a bath of simultaneously stored electrons. After some reaction period multiply charged anionic gold, silver, and copper clusters are observed if the clusters under investigation are large enough. The cluster sizes for the onset of the formation of dianions and trianions are compared to a charged sphere model. The description of the experimental findings is largely improved if the repulsive Coulomb barrier is taken into account which prevents autodetachment of the surplus electrons on the experimental time scale of a second.

Period (periodic table)ChemistryCoulomb barrierchemistry.chemical_elementElectronengineering.materialCondensed Matter PhysicsPenning trapCopperPhysics::Atomic and Molecular ClustersCluster (physics)engineeringNoble metalPhysical and Theoretical ChemistryAtomic physicsInstrumentationSpectroscopyMetal clustersInternational Journal of Mass Spectrometry

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Size-dependent photoemission shifts in small metal clusters

1986

Density-functional calculations of the change in self-consistent-field energy ( Delta SCF) type are reported for core-level photoemission shifts in small metal spheres. The results for the atom-in-jellium vacancy model show that the binding energies are increased from bulk-metal values, but the photoemission shifts show considerable oscillations as a function of cluster size.

Physics and Astronomy (miscellaneous)ChemistryBinding energyInverse photoemission spectroscopySize dependentMetals and AlloysGeneral EngineeringAngle-resolved photoemission spectroscopyMetalCondensed Matter::Materials ScienceVacancy defectvisual_artPhysics::Atomic and Molecular Clustersvisual_art.visual_art_mediumCondensed Matter::Strongly Correlated ElectronsSPHERESAtomic physicsMetal clustersJournal of Physics F: Metal Physics

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Odd-even staggering in simple models of metal clusters

1994

The odd-even staggering of free-electron metal clusters is studied using several simple models: Noninter-acting electrons in a rectangular box, triaxial harmonic oscillator, and Huckel model. Finite temperature effects are studied using the Monte Carlo method. All the models show qualitatively similar odd-even staggering. In the ground state the HOMO-LUMO gap is larger than the neighbouring energy gaps. The reduction of the odd-even staggering due to exchange and correlation is studied using the local-spin-density approximation.

PhysicsCuboidSimple (abstract algebra)Monte Carlo methodCondensed Matter::Strongly Correlated ElectronsElectronAtomic physicsGround stateReduction (mathematics)Atomic and Molecular Physics and OpticsHarmonic oscillatorComputational physicsMetal clustersZeitschrift f�r Physik D Atoms, Molecules and Clusters

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Unrestricted Shapes of Jellium Clusters

1995

A jellium model with a completely relaxable background charge density is used to study metal clusters containing 2 to 22 electrons. The resulting shapes of the clusters exhibit breaking of axial and inversion symmetries, as well as molecular formation. The clusters without inversion symmetry are soft against deformation. The strongly deformed 14-electron cluster is found to be semi-magic. Stable-shape isomers are predicted.

PhysicsHomogeneous spaceJelliumPoint reflectionPhysics::Atomic and Molecular ClustersCluster (physics)General Physics and AstronomyElectronAtomic physicsDeformation (engineering)Inversion (discrete mathematics)Metal clustersEurophysics Letters (EPL)

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Linear Nuclei: A Density Functional Interpretation

1997

We show that linear shape isomers of small even-even nuclei exist with nearly any internucleon interactions. The shapes of the linear isomers look like chains of alpha-particles, but single-particle spectrum reveals that alpha-particle interpretation is not needed. Indeed, the same shapes are obtained even with noninteracting particles in a rectangular cavity. Linear shape isomers are shown to exist also in metal clusters.

PhysicsNuclear and High Energy PhysicsQuantum mechanicsSpectrum (functional analysis)Physics::Atomic and Molecular ClustersGeneral Physics and AstronomyPhysics::Chemical PhysicsAtomic physicsFunctional interpretationInterpretation (model theory)Metal clustersInternational Journal of Modern Physics E

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The response of metal clusters toq- andL-dependent external fields

1991

We have calculated the static polarizability and mean excitation energy of metal clusters submitted toq-andL-dependent external fields ofjL(qr)YL0(Ω) type. Use has been made of an Extended Random-Phase Approximation which includes exchange and correlation effects within a local model, and of the spherical jellium model to describe the neutralizing positive background.

PhysicsPolarizabilityJelliumAtomic physicsAtomic and Molecular Physics and OpticsExcitationMetal clustersZeitschrift f�r Physik D Atoms, Molecules and Clusters

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A Simple Entropic-Driving Separation Procedure of Low-Size Silver Clusters, Through Interaction with DNA

2021

Abstract Synthesis and purification of metal clusters without strong binding agents by wet chemical methods are very attractive for their potential applications in many research areas. However, especially challenging is the separation of uncharged clusters with only a few number of atoms, which renders the usual techniques very difficult to apply. Herein, we report the first efficient separation of Ag2 and Ag3 clusters using the different entropic driving forces when such clusters interact with DNA, into which Ag3 selectively intercalates. After sequential dialysis of the samples and denaturalizing the DNA‐Ag3 complex, pure Ag2 can be found in the dialysate after extensive dialysis. Free Ag…

SilverResearch areasEntropyDna interactionIntercalation (chemistry)silver clustersMetal NanoparticlesChemical Fractionationchemistry.chemical_compoundseparation proceduresQD1-999Strong bindingmass spectrometryChemistryCommunicationentropically-driven processesGeneral ChemistryDNAIntercalating AgentsCommunicationsDNA interactionChemistryChemical physicsSettore CHIM/03 - Chimica Generale E InorganicaDialysis (biochemistry)DNAMetal clustersSeparation procedure

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Shell structure in large nonspherical metal clusters.

1992

Electronic shell structure of icosahedral and cuboctahedral sodium clusters with 300 to 1500 atoms has been studied using a potential-well approximation for the effective one-electron potential. The results show that icosahedral clusters yield the same shell structure as spherical clusters up to the cluster size of about 500 atoms and that similarities persist until the cluster has about 1000 atoms. The shell structure of a cuboctahedral geometry begins to deviate from that of a sphere when the cluster size is about 100. A study on quadrupole deformations of large clusters shows that surface fluctuations in liquid clusters cannot destroy the shell structure even in the largest clusters.

Surface (mathematics)Materials scienceYield (engineering)Condensed matter physicsIcosahedral symmetryFermi levelMolecular physicssymbols.namesakeQuadrupolePhysics::Atomic and Molecular ClustersCluster (physics)symbolsDensity of statesMetal clustersPhysical review. B, Condensed matter

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NHC-Stabilized Au10 Nanoclusters and Their Conversion to Au25 Nanoclusters

2022

Herein, we describe the synthesis of a toroidal Au10 cluster stabilized by N-heterocyclic carbene and halide ligands via reduction of the corresponding NHC−Au−X complexes (X = Cl, Br, I). The significant effect of the halide ligands on the formation, stability, and further conversions of these clusters is presented. While solutions of the chloride derivatives of Au10 show no change even upon heating, the bromide derivative readily undergoes conversion to form a biicosahedral Au25 cluster at room temperature. For the iodide derivative, the formation of a significant amount of Au25 was observed even upon the reduction of NHC−Au−I. The isolated bromide derivative of the Au25 cluster displays a…

absorptiometal clustersanionitligandsnanohiukkasetliganditgoldanionsabsorptionkulta

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