Search results for "Computer simulation"

showing 10 items of 1054 documents

Effects of static and dynamic perturbations on isotropic hyperfine coupling constants in some quinone radicals.

2004

The effects of solvent dielectric response on the isotropic hyperfine coupling constants of the 1,4-benzoquinone, 1,4-naphthoquinone and 9,10-anthraquinone anions and 1,4-naphthalenediol cation radicals were studied by electron spin resonance (ESR) spectroscopy and by the theoretical density functional method within the polarizable continuum model. Experimental results demonstrate that the isotropic hyperfine coupling constants can be obtained with high accuracy and that the effects of solvent impurities can be minimized by careful sample preparation. The results obtained correlate well with theoretical predictions from density functional theory calculations. For 1,4-naphthalenediol both th…

Models MolecularMagnetic Resonance SpectroscopyFree RadicalsRadicalMolecular ConformationPolarizable continuum modelMolecular physicsSensitivity and Specificitylaw.inventionlawImpurityComputational chemistryElectric ImpedanceGeneral Materials ScienceComputer SimulationSpectroscopyElectron paramagnetic resonanceBinding SitesChemistryIsotropyQuinonesReproducibility of ResultsGeneral ChemistrySolventKineticsSolventsAnisotropyDensity functional theoryArtifactsMagnetic resonance in chemistry : MRC
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Orientational landscapes of peptides in membranes: prediction of (2)H NMR couplings in a dynamic context.

2009

Unlike soluble proteins, membrane polypeptides face an anisotropic milieu. This imposes restraints on their orientation and provides a reference that makes structure prediction tractable by minimalistic thermodynamic models. Here we use this framework to build orientational distributions of monomeric membrane-bound peptides and to predict their expected solid-state (2)H NMR quadrupolar couplings when labeled at specific side chain positions. Using a complete rigid-body sampling of configurations relative to an implicit lipid membrane, peptide free energy landscapes are calculated. This allows us to obtain probability distributions of the peptide tilt, azimuthal rotation, and depth of membra…

Models MolecularMagnetic Resonance SpectroscopyMembrane FluidityPopulationDegrees of freedom (physics and chemistry)Context (language use)BiochemistryQuantitative Biology::Subcellular ProcessesComputational chemistryOrientation (geometry)Computer SimulationLipid bilayereducationAnisotropyPhysics::Biological PhysicsQuantitative Biology::Biomoleculeseducation.field_of_studyChemistryCell MembraneMaxima and minimaMembraneSolubilityChemical physicsThermodynamicsPeptidesAlgorithmsBiochemistry
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NMR study of hexanucleotide d(CCGCGG)2 containing two triplet repeats of fragile X syndrome

2003

Abstract Long repeated stretches of d(CCG) and tri-nucleotide are crucial mutations that cause hereditary forms of mental retardation (fragile X-syndrome). Moreover, the alternating (CG) di-nucleotide is one of the candidates for Z-DNA conformation. Solution NMR structure of d(CCGCGG) 2 has been solved and is discussed. The determined NMR solution structure is a distorted highly bent B-DNA conformation with increased flexibility in both terminal residues. This conformation differs significantly from the Z-DNA tetramer structure reported for the same hexamer in the crystal state at similar ionic strength by Malinina and co-workers. Crystal structure of d(CCGCGG) 2 at high salt concentration …

Models MolecularMagnetic Resonance SpectroscopyOligonucleotidesBiophysicsCrystal structureRandom hexamerRing (chemistry)Biochemistrychemistry.chemical_compoundTetramerNucleic AcidsHumansMoleculeComputer SimulationMolecular BiologyRecombination Geneticchemistry.chemical_classificationChemistryDNACell BiologyFuranoseCrystallographyIonic strengthFragile X SyndromeNucleic Acid ConformationTrinucleotide Repeat ExpansionCytosineBiochemical and Biophysical Research Communications
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Oxaaza cyclophanes in the recognition of nucleotides. The role of oxygen and electron-rich aromatic rings

2007

Dioxapolyaza cyclophanes derived from resorcinol and different polyamine chains have been studied in aqueous solution as abiotic receptors for nucleotides. The presence of the additional ethyleneoxy subunits is reflected in a higher basicity and in a significant increase in the log K values for the interaction with nucleotides relative to that of related polyazacyclophanes.

Models MolecularMagnetic Resonance Spectroscopychemistry.chemical_elementElectronsResorcinolElectronAbiotic ReceptorsHydrocarbons AromaticBiochemistryMedicinal chemistryOxygenchemistry.chemical_compoundCrown EthersOrganic chemistryComputer SimulationNucleotidePhysical and Theoretical Chemistrychemistry.chemical_classificationAqueous solutionNucleotidesChemistryOrganic ChemistryAromaticityOxygenPotentiometryPolyamineOrg. Biomol. Chem.
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Tuning molecular self-assembly on bulk insulator surfaces by anchoring of the organic building blocks.

2013

Molecular self-assembly constitutes a versatile strategy for creating functional structures on surfaces. Tuning the subtle balance between intermolecular and molecule-surface interactions allows structure formation to be tailored at the single-molecule level. While metal surfaces usually exhibit interaction strengths in an energy range that favors molecular self-assembly, dielectric surfaces having low surface energies often lack sufficient interactions with adsorbed molecules. As a consequence, application-relevant, bulk insulating materials pose significant challenges when considering them as supporting substrates for molecular self-assembly. Here, the current status of molecular self-ass…

Models MolecularMaterials scienceAnchoringNanotechnologyInsulator (electricity)Dielectricmolecular adsorption530Molecular self-assemblyMoleculeGeneral Materials ScienceComputer Simulationnon-contact atomic forceOrganic Chemicalsinsulating surfacesMechanical EngineeringIntermolecular forceElectric Conductivityself-assemblymolecule-surface interactionsModels ChemicalMechanics of MaterialsMetalsmicroscopySelf-assemblyNon-contact atomic force microscopyAdvanced materials (Deerfield Beach, Fla.)
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Telechelic Star Polymers as Self-Assembling Units from the Molecular to the Macroscopic Scale

2012

By means of multiscale molecular simulations, we show that telechelic-star polymers are a simple, robust, and tunable system, which hierarchically self-assembles into soft-patchy particles and mechanically stabilizes selected, open crystalline structures. The self-aggregating patchy behavior can be fully controlled by the number of arms per star and by the fraction of attractive monomeric units at the free ends of the arms. Such self-assembled soft-patchy particles while forming, upon augmenting density, gel-like percolating networks, preserve properties as particle size, number, and arrangement of patches per particle. In particular, we demonstrate that the flexibility inherent in the soft…

Models MolecularMaterials scienceMacromolecular SubstancesPolymersMolecular ConformationGeneral Physics and AstronomyNanotechnology02 engineering and technologyengineering.materialCubic crystal system010402 general chemistry01 natural sciencesCluster AnalysisComputer SimulationMacromolecular SubstanceParticle SizePolymerAstrophysics::Galaxy AstrophysicsComplex fluidchemistry.chemical_classificationRange (particle radiation)Cluster AnalysiDiamondPolymer021001 nanoscience & nanotechnology0104 chemical sciencesCondensed Matter::Soft Condensed MatterModels ChemicalchemistryMacroscopic scaleChemical physicsengineeringParticleParticle size0210 nano-technologyPhysical Review Letters
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Synthesis of SWCNT Rings Made by Two Y Junctions and Possible Applications in Electron Interferometry

2007

Models MolecularMaterials scienceMacromolecular SubstancesSurface PropertiesMolecular ConformationElectronsNanotechnologyCarbon nanotubeElectronlaw.inventionBiomaterialslawMaterials TestingNanotechnologyComputer SimulationGeneral Materials ScienceParticle SizeNanotubes CarbonGeneral ChemistryInterferometryInterferometryModels ChemicalSemiconductorsQuantum interferenceCrystallizationBiotechnologySmall
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Mechanical Properties of Pore-Spanning Lipid Bilayers Probed by Atomic Force Microscopy

2006

AbstractWe measure the elastic response of a free-standing lipid membrane to a local indentation by using an atomic force microscope. Starting point is a planar gold-coated alumina substrate with a chemisorbed 3-mercaptopropionic acid monolayer displaying circular pores of very well defined and tunable size, over which bilayers composed of N,N,-dimethyl-N,N,-dioctadecylammonium bromide or 1,2-dioleoyl-3-trimethylammonium-propane chloride were spread. Centrally indenting these “nanodrums” with an atomic force microscope tip yields force-indentation curves, which we quantitatively analyze by solving the corresponding shape equations of continuum curvature elasticity. Since the measured respon…

Models MolecularMaterials scienceMembrane FluidityLipid BilayersBiophysicsAnalytical chemistryFOS: Physical sciencesMechanicsMicroscopy Atomic ForceCurvatureIndentation hardnessHardnessIndentationMonolayerComputer SimulationHardness TestsParticle SizeComposite materialElasticity (economics)Lipid bilayerPhysics::Biological PhysicsMembranesFlexural modulus20399 Classical Physics not elsewhere classifiedElasticityMembraneModels ChemicalStress MechanicalPorosityBiophysical Journal
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Ion transport and selectivity in nanopores with spatially inhomogeneous fixed charge distributions

2007

Polymeric nanopores with fixed charges show ionic selectivity when immersed in aqueous electrolyte solutions. The understanding of the electrical interaction between these charges and the mobile ions confined in the inside nanopore solution is the key issue in the design of potential applications. The authors have theoretically described the effects that spatially inhomogeneous fixed charge distributions exert on the ionic transport and selectivity properties of the nanopore. A comprehensive set of one-dimensional distributions including the skin, core, cluster, and asymmetric cases are analyzed on the basis of the Nernst-Planck equations. Current-voltage curves, nanopore potentials, and tr…

Models MolecularMaterials scienceStatic ElectricityGeneral Physics and AstronomyIonic bondingNanotechnologyElectrolyteIon ChannelsNanoporous materialsIonQuantitative Biology::Subcellular ProcessesElectrolytesBiopolymersIonic conductivityStatic electricityCluster (physics)Ionic conductivityComputer SimulationPhysical and Theoretical Chemistry:FÍSICA::Química física [UNESCO]AnisotropyIon TransportUNESCO::FÍSICA::Química físicaNanostructuresNanoporeModels ChemicalPolymer solutionsChemical physicsNanoporous materials ; Polymer solutions ; Electrolytes ; Ionic conductivityAnisotropyIon Channel GatingPorosityThe Journal of Chemical Physics
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Engineering thermal conductance using a two-dimensional phononic crystal

2014

Controlling thermal transport has become relevant in recent years. Traditionally, this control has been achieved by tuning the scattering of phonons by including various types of scattering centres in the material (nanoparticles, impurities, etc). Here we take another approach and demonstrate that one can also use coherent band structure effects to control phonon thermal conductance, with the help of periodically nanostructured phononic crystals. We perform the experiments at low temperatures below 1 K, which not only leads to negligible bulk phonon scattering, but also increases the wavelength of the dominant thermal phonons by more than two orders of magnitude compared to room temperature…

Models MolecularMaterials sciencesilicon-nitride membranesPhononthermometryta221General Physics and AstronomyNanotechnology02 engineering and technology01 natural sciencesArticleGeneral Biochemistry Genetics and Molecular BiologyCrystalCondensed Matter::Materials ScienceEngineeringThermal conductivityThermal transportCondensed Matter::Superconductivity0103 physical sciencesAcoustic metamaterialsNanotechnologyComputer Simulation010306 general physicsElectronic band structureMultidisciplinaryta114Condensed matter physicsScatteringkuljetusTemperatureThermal ConductivityGeneral Chemistryband-structure021001 nanoscience & nanotechnologyCondensed Matter::Mesoscopic Systems and Quantum Hall EffectliikeModels ChemicaltemperaturesNanoparticlesPhononsCondensed Matter::Strongly Correlated Electronsconductivity0210 nano-technologyAlgorithmskuumuus
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