Search results for "Statistical"

showing 10 items of 4960 documents

Stimuli-responsive brushes with active minority components: Monte Carlo study and analytical theory

2015

Using a combination of analytical theory, Monte Carlo simulations, and three dimensional self-consistent field calculations, we study the equilibrium properties and the switching behavior of adsorption-active polymer chains included in a homopolymer brush. The switching transition is driven by a conformational change of a small fraction of minority chains, which are attracted by the substrate. Depending on the strength of the attractive interaction, the minority chains assume one of two states: An exposed state characterized by a stem-crown-like conformation, and an adsorbed state characterized by a flat two-dimensional structure. Comparing the Monte Carlo simulations, which use an Edwards-…

chemistry.chemical_classificationPolymers and PlasticsChemistryOrganic ChemistryMonte Carlo methodBrushFOS: Physical sciencesPolymerFlory–Huggins solution theoryCondensed Matter - Soft Condensed Matterlaw.inventionCondensed Matter::Soft Condensed MatterInorganic Chemistrysymbols.namesakelawThermalExcluded volumeMaterials ChemistrysymbolsDynamic Monte Carlo methodSoft Condensed Matter (cond-mat.soft)Statistical physicsHamiltonian (quantum mechanics)
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Glass transition of polymer melts: Test of theoretical concepts by computer simulation.

2003

Abstract Polymers are good glass formers and allow for the study of melts near the glass transition in (meta-)stable equilibrium. Theories of the glass transition imply such an equilibrium and can, hence, be tested by the study of polymer melts. After a brief summary of the basic experimental facts about the glass transition in polymers, the main theoretical concepts are reviewed: mode coupling theory (MCT), entropy theory, free-volume theory, the idea of a growing length describing the size of cooperative regions, etc. Then, two basic coarse-grained models of polymers are described, which have been developed aiming at a test of these concepts. The first model is the bond-fluctuation model …

chemistry.chemical_classificationPolymers and PlasticsChemistryOrganic ChemistryMonte Carlo methodConfiguration entropy02 engineering and technologySurfaces and InterfacesPolymer021001 nanoscience & nanotechnology01 natural sciencesCondensed Matter::Soft Condensed MatterMolecular dynamics0103 physical sciencesMode couplingMaterials ChemistryCeramics and CompositesEntropy (information theory)Kinetic Monte CarloStatistical physics010306 general physics0210 nano-technologyGlass transition[PHYS.COND.CM-SCM]Physics [physics]/Condensed Matter [cond-mat]/Soft Condensed Matter [cond-mat.soft]
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Adsorption Transition of a Polymer Chain at a Weakly Attractive Surface: Monte Carlo Simulation of Off-Lattice Models

2002

A bead-spring model of a polymer chain with one end attached to a wall is studied by Monte Carlo simulations for chain lengths 16 ≤ N ≤ 256. Two types of adsorption potentials, 9-3 and 10-4 Lennard-Jones (LJ) potentials, between the effective monomers and the wall are assumed. For both cases the adsorption transition where the chain changes its asymptotic statistical properties from a three-dimensional to a two-dimensional configuration is located using a scaling analysis. It is shown that the crossover exponent φ = 0.50 ± 0.02 is the same for both LJ potentials. This value is compatible with recent theoretical predictions and simulation results for lattice models with short-range wall pote…

chemistry.chemical_classificationPolymers and PlasticsChemistryOrganic ChemistryMonte Carlo methodCrossoverThermodynamicsStatistical mechanicsPolymerCondensed Matter PhysicsCondensed Matter::Soft Condensed MatterInorganic ChemistryAdsorptionLattice (order)Materials ChemistryExponentStatistical physicsScalingMacromolecular Theory and Simulations
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Interfaces between coexisting phases in polymer mixtures: What can we learn from Monte Carlo simulations?

1999

Symmetric binary polymer mixtures are studied by Monte Carlo simulation of the bond fluctuation model, considering both interfaces between coexisting bulk phases and interfaces confined in thin films. It is found that the critical behavior of interfacial tension and width is compatible with that of the Ising model, as expected from the universality principle. In the strong segregation limit, only qualitative but not quantitative agreement with the self-consistent field (SCF) theory is found. It is argued that the SCF theory requires √ 6 X √D for short-range forces, in agreement with experiment.

chemistry.chemical_classificationPolymers and PlasticsCondensed matter physicsOrganic ChemistryMonte Carlo methodBinary numberPolymerCondensed Matter PhysicsUniversality (dynamical systems)Condensed Matter::Soft Condensed MatterSurface tensionchemistryMaterials ChemistryIsing modelPolymer blendStatistical physicsThin filmMacromolecular Symposia
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Computer simulation of macromolecular materials

1988

Computer simulation of model systems with Monte Carlo methods enables the detailed study of structure and thermodynamic properties of these systems and thus constitutes a link between analytic theory and experiment. Typical applications that are discussed include polymer blends, dynamics of local motions in polymer melts, and the adsorption of polymers on walls.

chemistry.chemical_classificationPolymers and PlasticsPolymer scienceMonte Carlo methodPolymerCondensed Matter::Soft Condensed MatterReptationMolten stateColloid and Surface ChemistrychemistryMaterials ChemistryPolymer blendStatistical physicsPhysical and Theoretical ChemistryDiffusion (business)Phase diagramMacromoleculeColloid & Polymer Science
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Structure and dynamics of thin polymer films: a case study with the bond-fluctuation model

2002

Abstract This paper reports Monte Carlo simulation results of a polymer melt of short, non-entangled chains which are embedded between two impenetrable walls. The melt is simulated by the bond-fluctuation lattice model under athermal conditions, i.e. only excluded volume interactions between the monomers and between the monomers and the walls are taken into account. In the simulations, the wall separation is varied from about one to about 15 times the bulk radius of gyration R g . The confinement influences both static and dynamic properties of the films: Chains close to the walls preferentially orient parallel to it. This parallel orientation decays with increasing distances from the wall …

chemistry.chemical_classificationPreferential alignmentLattice model (finance)Polymers and PlasticsCondensed matter physicsChemistryOrganic ChemistryMonte Carlo methodPolymerCondensed Matter::Soft Condensed MatterOrientation (geometry)Excluded volumeMaterials ChemistryRadius of gyrationStatistical physicsThin filmPolymer
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Anomalous diffusion in polymer melts

2002

Abstract We present a study of the anomalous diffusion regimes in polymer melt dynamics performing a Monte Carlo (MC) simulation of the bond-fluctuation lattice model. Special emphasis is laid on the crossover from a Rouse-like motion to the behavior predicted by reptation theory. For the longest chains of N=400 the high statistical accuracy of the data allows for clear identification of the subdiffusive regimes in the center of mass motion and the monomer displacement. They are well compatible with those predicted by reptation theory. Furthermore a detailed analysis of the different short time anomalous diffusion regimes in the melt dynamics of polymer chains is presented and it is shown t…

chemistry.chemical_classificationQuantitative Biology::BiomoleculesAnomalous diffusionMonte Carlo methodCrossoverGeneral Physics and AstronomyThermodynamicsPolymerDisplacement (vector)Condensed Matter::Soft Condensed MatterReptationchemistryStatistical physicsCenter of massPhysical and Theoretical ChemistryLattice model (physics)Chemical Physics
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Structure and dynamics of grafted polymer layers: A Monte Carlo simulation

1991

The bond fluctuation model of polymer chains on lattices is used to study layers of polymers anchored with one end at a hard wall, assuming good solvent conditions and repulsive interactions between the monomers and the wall. Chain lengths from N=10 to N=80 and grafting densities σ from 0.025 to 0.20 are considered, both for the ‘‘quenched’’ case, where the anchor points are kept fixed at randomly chosen surface sites, and the ‘‘annealed’’ case, where lateral diffusion of the anchored ends at the wall is considered. Profiles of monomer density and free end density, chain linear dimensions parallel and perpendicular to the wall, as well as corresponding mean square displacements of inner and…

chemistry.chemical_classificationQuantitative Biology::BiomoleculesChemistryMonte Carlo methodRelaxation (NMR)General Physics and AstronomyPolymerMolecular physicsCondensed Matter::Soft Condensed Matterchemistry.chemical_compoundMonomerChain (algebraic topology)Chemical bondPerpendicularStatistical physicsPhysical and Theoretical ChemistryScalingThe Journal of Chemical Physics
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Monte Carlo simulations of chain dynamics in polymer brushes

1994

The bond-fluctuation model of polymer chains has been used to study layers of end-grafted polymers anchoring at repulsive walls for a broad range of chain length, grafting densities and solvent quality. The dynamics of monomers and associated relaxation times are investigated and interpreted by phenomenological theories and scaling arguments. The case is also considered where a chain is cut off from its anchor point and the chain is subsequently expelled from the brush. Both the velocity with which the chain leaves the brush and the associated conformational changes (chain contraction etc.) are analysed and interpreted in terms of recent theoretical concepts.

chemistry.chemical_classificationQuantitative Biology::BiomoleculesChemistryRelaxation (NMR)Monte Carlo methodAnchoringPolymerCondensed Matter::Soft Condensed MatterMolecular dynamicsChain (algebraic topology)Chemical physicsStatistical physicsPhysical and Theoretical ChemistryScalingWorm-like chainFaraday Discussions
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A comparison of neutron scattering studies and computer simulations of polymer melts

2000

Abstract Neutron scattering and computer simulations are powerful tools for studying structural and dynamical properties of condensed matter systems in general and of polymer melts in particular. When neutron scattering studies and quantitative atomistic molecular dynamics simulations of the same material are combined, synergy between the methods can result in exciting new insights into polymer melts not obtainable from either method separately. We present here an overview of our recent efforts to combine neutron scattering and atomistic simulations in the study of melt dynamics of polyethylene and polybutadiene. Looking at polymer segmental motion on a picosecond time scale, we show how at…

chemistry.chemical_classificationQuantitative Biology::BiomoleculesChemistryScatteringGeneral Physics and AstronomyPolymerNeutron scatteringSpectral lineCondensed Matter::Soft Condensed MatterMolecular dynamicsPolybutadieneChemical physicsPicosecondRelaxation (physics)Statistical physicsPhysical and Theoretical ChemistryChemical Physics
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