Search results for "Interaction energy"

showing 10 items of 67 documents

Force Field for Water over Pt(111): Development, Assessment, and Comparison

2018

Metal/water interfaces are key in many natural and industrial processes, such as corrosion, atmospheric, or environmental chemistry. Even today, the only practical approach to simulate large interfaces between a metal and water is to perform force-field simulations. In this work, we propose a novel force field, GAL17, to describe the interaction of water and a Pt(111) surface. GAL17 builds on three terms: (i) a standard Lennard-Jones potential for the bonding interaction between the surface and water, (ii) a Gaussian term to improve the surface corrugation, and (iii) two terms describing the angular dependence of the interaction energy. The 12 parameters of this force field are fitted again…

10120 Department of ChemistryMaterials scienceComputationGaussianThermodynamics02 engineering and technology010402 general chemistry01 natural sciencesForce field (chemistry)CorrosionMetalComputer Softwaresymbols.namesakeAdsorptionTheoretical and Computational Chemistry540 Chemistry1706 Computer Science ApplicationsPhysical and Theoretical ChemistryComputingMilieux_MISCELLANEOUSChemical PhysicsSolvationInteraction energy021001 nanoscience & nanotechnology0104 chemical sciencesComputer Science Applications[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry13. Climate actionvisual_artvisual_art.visual_art_mediumsymbolsBiochemistry and Cell Biology0210 nano-technology1606 Physical and Theoretical Chemistry
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Synthesis and Physical Stability of Novel Au-Ag@SiO<SUB>2</SUB> Alloy Nanoparticles

2012

The present study describes the synthesis of nanoparticles of silver-gold alloys and with their electrokinetic and spectroscopic characterisation. The synthesis was made in two steps. In the first step silver nanoparticles coated with silica (Ag@SiO2) were synthesised using a novel method assisted by laser ablation. The second step consisted on the introduction of KAuCl4 in the colloidal solution of Ag@ SiO2 nanoparticles in order to obtain silica-coated silver-gold alloy nanoparticles. The changes of colour and mean diameter of Ag@SiO2 nanoparticles caused by the introduction of the gold salt were found dependent on its concentration. Upon increasing (KAuCl4) the diameter of nanoparticles …

AbsorbanceColloidMaterials scienceAlloyAnalytical chemistryengineeringNanoparticleDLVO theoryInteraction energyengineering.materialSurface plasmon resonanceSilver nanoparticleNanoscience and Nanotechnology
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Solution of the Skyrme-Hartree–Fock–Bogolyubovequations in the Cartesian deformed harmonic-oscillator basis. (VIII) hfodd (v2.73y): A new version of …

2017

We describe the new version (v2.73y) of the code HFODD which solves the nuclear Skyrme Hartree-Fock or Skyrme Hartree-Fock-Bogolyubov problem by using the Cartesian deformed harmonic-oscillator basis. In the new version, we have implemented the following new features: (i) full proton-neutron mixing in the particle-hole channel for Skyrme functionals, (ii) the Gogny force in both particle-hole and particle-particle channels, (iii) linear multi-constraint method at finite temperature, (iv) fission toolkit including the constraint on the number of particles in the neck between two fragments, calculation of the interaction energy between fragments, and calculation of the nuclear and Coulomb ene…

Angular momentumNuclear Theory[PHYS.NUCL]Physics [physics]/Nuclear Theory [nucl-th]SYMMETRYNuclear TheoryHartree–Fock methodGeneral Physics and AstronomyFOS: Physical sciencesGogny forceSkyrme interactionNuclear density functional theorySelf-consistent mean-field01 natural sciences114 Physical sciencesNuclear Theory (nucl-th)Energy density functional theorySYSTEMSQuantum mechanics0103 physical sciences010306 general physicsHarmonic oscillator[ PHYS.NUCL ] Physics [physics]/Nuclear Theory [nucl-th]PhysicsHartree–Fock–Bogolyubovta114010308 nuclear & particles physicsAugmented Lagrangian methodInteraction energyAngular-momentum projection113 Computer and information sciencesHardware and ArchitecturePairingIsospintheoretical nuclear physicsSelf-consistent mean fieldHartree-Fock-BogolyubovPairing correlations
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Potential models for the simulation of methane adsorption on graphene: development and CCSD(T) benchmarks

2018

Different force fields for the graphene–CH4 system are proposed including pseudo-atom and full atomistic models. Furthermore, different charge schemes are tested to evaluate the electrostatic interaction for the CH4 dimer. The interaction parameters are optimized by fitting to interaction energies at the DFT level, which were themselves benchmarked against CCSD(T) calculations. The potentials obtained with both the pseudo-atom and full atomistic approaches describe accurately enough the average interaction in the methane dimer as well as in the graphene–methane system. Moreover, the atom–atom potentials also correctly provide the energies associated with different orientations of the molecu…

CCSD calculationsPotential modelsUNESCO::QUÍMICADimerGeneral Physics and AstronomyThermodynamics02 engineering and technology010402 general chemistry:QUÍMICA [UNESCO]7. Clean energy01 natural sciencesStability (probability)MethaneCCSD calculations Potential models methane adsorptionlaw.inventionchemistry.chemical_compoundlawPhysics::Atomic and Molecular ClustersMoleculePhysics::Chemical PhysicsPhysical and Theoretical ChemistryBond energymethane adsorptionCondensed Matter::Quantum GasesPhysicsGrapheneCharge (physics)Interaction energy021001 nanoscience & nanotechnology0104 chemical scienceschemistry0210 nano-technologyPhysical Chemistry Chemical Physics
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ChemInform Abstract: Weak Interactions Between Trivalent Pnictogen Centers: Computational Analysis of Bonding in Dimers X3E···EX3(E: Pnictogen, X: Ha…

2009

The nature of weak interactions in dimers X3E···EX3 (E = N−Bi, X = F−I) was investigated by wave function and density functional theory (DFT)-based methods. Out of the 20 systems studied, 10 are found to be bound at the CP-MP2 and LMP2 levels of theory. Detailed partition of the interaction energy into different components revealed that dispersion is the primary force holding the dimers together but there also exists an important ionic component whose contribution increases with increasing halogen size. As expected, standard density functionals fail to describe bonding in the studied systems. However, the performance of DFT methods can be easily improved via empirical dispersion correction …

ChemistryChemical physicsHydrogen bondBinding energyAb initioIonic bondingDensity functional theoryGeneral MedicineInteraction energyDispersion (chemistry)PnictogenChemInform
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Hydration of agarose double helix: A monte carlo simulation

2009

The structure of the water around agarose double helix is analyzed with ab initio quantum mechanical calculations and Monte Carlo simulations. The potential surface is sampled by computing the interaction energy between fragments of agarose and a water molecule placed at 221 different orientations and/or positions. These energy values are fitted to a simple analytical expression representing atom-atom pair potentials for a water molecule interacting with agarose. A preliminary understanding of the agarose-water interaction is obtained from isoenergy contour maps at planar cross sections, perpendicular to the long axis of the double helix, and for cylindrical surfaces enclosing the double he…

ChemistryCoordination numberMonte Carlo methodAb initioInteraction energyCondensed Matter PhysicsMolecular physicsAtomic and Molecular Physics and Opticschemistry.chemical_compoundCrystallographyHelixPerpendicularAgaroseMoleculePhysical and Theoretical ChemistryInternational Journal of Quantum Chemistry
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A study of coronene?coronene association using atom?atom pair potentials

1996

A study of the coronene—coronene association using different interaction potentials based on an atom-atom pair potential proposed by Fraga has been performed. The interaction potentials employed differ in the way the electrostatic and/or dispersion contributions are computed. The influence of both contributions on the geometries predicted for the coronene dimer is discussed in order to analyze the effectiveness of the different interaction potentials. The stationary points found in each interaction energy hypersurface are characterized by calculating the Hessian eigenvalues. Results are discussed in the light of those previously reported for the benzene dimer. Stacked-displaced structures a…

ChemistryDimerInteraction energyCondensed Matter PhysicsStationary pointAtomic and Molecular Physics and OpticsCoronenechemistry.chemical_compoundHypersurfaceAtomPhysics::Atomic and Molecular ClustersPhysical and Theoretical ChemistryAtomic physicsPair potentialEigenvalues and eigenvectorsInternational Journal of Quantum Chemistry
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Modelling of the cation motions in complex system: case of Na-mordenites

2002

Abstract Semi-empirical inter-atomic potentials and Monte Carlo algorithms are proposed to predict the evolution of the interaction energy between sodium ions and a mordenite type aluminosilicate network as a function of Si/Al ratio. This result is favourably compared with the activation energy barriers for Na + `jumps' responsible for the polarization change, measured by thermally stimulated current (TSC) spectroscopy, for Na-mordenites characterized by Si/Al ratios ranged from 5.5 to 12. Finally, we propose a possible mechanism for the cation motions, which involves activation barriers within the same order of magnitude than those measured by TSC.

ChemistryThermodynamicsInteratomic potentialActivation energyInteraction energyCondensed Matter PhysicsMordeniteElectronic Optical and Magnetic MaterialsIonComputational chemistryAluminosilicateMaterials ChemistryCeramics and CompositesSpectroscopyOrder of magnitudeJournal of Non-Crystalline Solids
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Causality, non-locality and three-body Casimir–Polder energy between three ground-state atoms

2006

The problem of relativistic causality in the time-dependent three-body Casimir–Polder interaction energy between three atoms, initially in their bare ground-state, is discussed. It is shown that the non-locality of the spatial correlations of the electromagnetic field emitted by the atoms during their dynamical self-dressing may become manifest in the dynamical three-body Casimir–Polder interaction energy between the three atoms.

Condensed Matter::Quantum GasesElectromagnetic fieldPhysicsQuantum opticsThree-body dispersion forces.Interaction energyCondensed Matter PhysicsThree-body problemAtomic and Molecular Physics and OpticsMany-body problemCausality (physics)Casimir effectQuantum electrodynamicQuantum mechanicsCausality and non-localityPhysics::Atomic and Molecular ClustersPhysics::Atomic PhysicsGround stateJournal of Physics B: Atomic, Molecular and Optical Physics
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Kinetics of correlated annealing of radiation defects in alkali halide crystals

1992

Abstract Kinetics of the correlated annealing of pairs of neutral (F-H) Frenkel defects in the KBr crystal is treated theoretically, taking into account defect diffusion, and annihilation at short distances stimulated by an elastic interaction. It is shown that an elastic interaction affects the annealing kinetics and the survival probability of close geminate detects considerably. The widespread description of the correlated annealing in terms of a first-order reaction fails for close defects yielding effective energies which in fact differ essentially from an activation energy of diffusion. Ea, even if it is corrected by an interaction energy. The effect of the initial distribution of def…

CrystalNuclear and High Energy PhysicsCrystallographyAnnihilationAnnealing (metallurgy)ChemistryKineticsHalideActivation energyInteraction energyAlkali metalInstrumentationMolecular physicsNuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
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