Search results for "Atomic packing factor"

showing 5 items of 35 documents

Event-Driven Simulation of the Dynamics of Hard Ellipsoids

2008

We introduce a novel algorithm to perform event-driven simulations of hard rigid bodies of arbitrary shape, that relies on the evaluation of the geometric distance. In the case of a monodisperse system of uniaxial hard ellipsoids,we perform molecular dynamics simulations varying the aspect-ratio X0 and the packing fraction phi. We evaluate the translational Dtrans and the rotational Drot diffusion coefficient and the associated isodiffusivity lines in the phi-X0 plane. We observe a decoupling of the translational and rotational dynamics which generates an almost perpendicular crossing of the Dtrans and Drot isodiffusivity lines. While the self intermediate scattering function exhibits stret…

Physicsnematic orderhard ellipsoidsCondensed Matter - Materials SciencePlane (geometry)Materials Science (cond-mat.mtrl-sci)FOS: Physical sciencesContext (language use)Decoupling (cosmology)mode coupling theoryCondensed Matter - Soft Condensed MatterAtomic packing factorEllipsoidcomputer simulation; glass transition; hard ellipsoids; mode coupling theory; nematic orderMolecular dynamicsClassical mechanicsPerpendicularcomputer simulationRelaxation (physics)Soft Condensed Matter (cond-mat.soft)glass transition
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Dynamic self-assembly of photo-switchable nanoparticles

2012

Nanoparticles functionalized with photo-switchable ligands can be assembled into a broad range of structures by controlled light exposure. In particular, alternating light exposures provide the means to control formation of assemblies of various sizes and symmetries. Here, we use scaling arguments and Kinetic Monte Carlo simulations to study the evolution of reversible aggregates in a solution of periodically irradiated photo-switchable nanoparticles. Scaling estimates of the characteristic size and the mean separation of aggregates agree with the simulations. The transition probabilities in the Kinetic Monte Carlo scheme are derived from a renormalized master equation of the diffusion proc…

Range (particle radiation)Diffusion processChemistryChemical physicsMaster equationNucleationNanoparticleNanotechnologyGeneral ChemistryKinetic Monte CarloDiffusion (business)Condensed Matter PhysicsAtomic packing factorSoft Matter
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Qualitative characterisation of effective interactions of charged spheres on different levels of organisation using Alexander’s renormalised charge a…

2005

Abstract Effective interactions are conveniently determined from experimental or numerical data by fitting a Debye–Huckel potential with an effective charge Z ∗ and an effective electrolyte concentration c ∗ as free parameters. In this contribution we numerically solved the Poisson–Boltzmann equation to obtain the so-called renormalised charge Z PBC ∗ . For sufficiently large bare charge Z one finds a saturation of Z ∗ which scales as Z ∗ = A a / λ B , where a is the particle radius, λ B the Bjerrum length and A a proportionality factor of order (8–10). The saturation value increases with increased total micro-ion concentration and shows a shallow minimum as a function of packing fraction. …

Shear modulusMolecular dynamicsColloid and Surface ChemistryClassical mechanicsChemistryCharge (physics)Poisson–Boltzmann equationAtomic packing factorBjerrum lengthMolecular physicsEffective nuclear chargeIonColloids and Surfaces A: Physicochemical and Engineering Aspects
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Simulation of fluid-solid coexistence in finite volumes: A method to study the properties of wall-attached crystalline nuclei

2012

The Asakura-Oosawa model for colloid-polymer mixtures is studied by Monte Carlo simulations at densities inside the two-phase coexistence region of fluid and solid. Choosing a geometry where the system is confined between two flat walls, and a wall-colloid potential that leads to incomplete wetting of the crystal at the wall, conditions can be created where a single nanoscopic wall-attached crystalline cluster coexists with fluid in the remainder of the simulation box. Following related ideas that have been useful to study heterogeneous nucleation of liquid droplets at the vapor-liquid coexistence, we estimate the contact angles from observations of the crystalline clusters in thermal equil…

Thermal equilibriumMaterials scienceCondensed matter physicsMonte Carlo methodNucleationFOS: Physical sciencesGeneral Physics and AstronomyCondensed Matter - Soft Condensed MatterAtomic packing factorContact angleCrystalPhysics::Fluid DynamicsCondensed Matter::Soft Condensed MatterPhase (matter)Soft Condensed Matter (cond-mat.soft)WettingPhysical and Theoretical Chemistry
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Simulation and theory of fluid demixing and interfacial tension of mixtures of colloids and nonideal polymers.

2005

An extension of the Asakura-Oosawa-Vrij model of hard sphere colloids and non-adsorbing polymers, that takes polymer non-ideality into account through a repulsive stepfunction pair potential between polymers, is studied with grand canonical Monte Carlo simulations and density functional theory. Simulation results validate previous theoretical findings for the shift of the bulk fluid demixing binodal upon increasing strength of polymer-polymer repulsion, promoting the tendency to mix. For increasing strength of the polymer-polymer repulsion, simulation and theory consistently predict the interfacial tension of the free colloidal liquid-gas interface to decrease significantly for fixed colloi…

chemistry.chemical_classificationBinodalQuantitative Biology::BiomoleculesMaterials scienceThermodynamicsFOS: Physical sciencesPolymerCondensed Matter - Soft Condensed MatterAtomic packing factorSurface tensionCondensed Matter::Soft Condensed MatterColloidchemistrySoft Condensed Matter (cond-mat.soft)Density functional theoryPair potentialGrand canonical monte carloPhysical review. E, Statistical, nonlinear, and soft matter physics
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