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Publication DateBiotechnology and Bioengineering, ISSN 0006-3592, 01/2019, Volume 116, Issue 1, pp. 76 - 86
Staphylococcal protein A chromatography is an established core technology for monoclonal antibody purification and capture in the downstream processing....
affinity chromatography | pearl necklace model | small‐angle X‐ray scattering | radial density distribution | monoclonal antibodies | staphylococcal protein A | small-angle X-ray scattering | COMPLEX | BEAMLINE | ANTIBODY | ADSORPTION | AFFINITY LIGANDS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | PURIFICATION | FRAGMENT | STAPHYLOCOCCUS-AUREUS | IMMUNOGLOBULIN-G | BINDING | Analysis | Immunoglobulin G | Monoclonal antibodies | Jewelry | Models | Chromatography | Protein binding | Binding | Stoichiometry | Data banks | Protein purification | Scattering | Chains | Protein A | Steric effects | Crystallography | Density | Domains | Proteins | Molecular modelling | Computation | Three dimensional models | Trastuzumab | Crystal structure | Recombinant | ARTICLES
affinity chromatography | pearl necklace model | small‐angle X‐ray scattering | radial density distribution | monoclonal antibodies | staphylococcal protein A | small-angle X-ray scattering | COMPLEX | BEAMLINE | ANTIBODY | ADSORPTION | AFFINITY LIGANDS | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | PURIFICATION | FRAGMENT | STAPHYLOCOCCUS-AUREUS | IMMUNOGLOBULIN-G | BINDING | Analysis | Immunoglobulin G | Monoclonal antibodies | Jewelry | Models | Chromatography | Protein binding | Binding | Stoichiometry | Data banks | Protein purification | Scattering | Chains | Protein A | Steric effects | Crystallography | Density | Domains | Proteins | Molecular modelling | Computation | Three dimensional models | Trastuzumab | Crystal structure | Recombinant | ARTICLES
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Loading RightsPhysica A: Statistical Mechanics and its Applications, ISSN 0378-4371, 12/2015, Volume 440, pp. 19 - 26
A spatiotemporal lattice Boltzmann model for solving the three-dimensional cubic–quintic complex Ginzburg–Landau equation (CQCGLE) is proposed. Different from...
Three-dimensional cubic–quintic complex Ginzburg–Landau equation | Necklace–ring | Spatiotemporal lattice Boltzmann model | Three-dimensional cubic-quintic complex Ginzburg-Landau equation | Necklace-ring | PHYSICS, MULTIDISCIPLINARY | BEAMS | MAGNETOHYDRODYNAMICS | SIMULATION
Three-dimensional cubic–quintic complex Ginzburg–Landau equation | Necklace–ring | Spatiotemporal lattice Boltzmann model | Three-dimensional cubic-quintic complex Ginzburg-Landau equation | Necklace-ring | PHYSICS, MULTIDISCIPLINARY | BEAMS | MAGNETOHYDRODYNAMICS | SIMULATION
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Loading RightsThe Journal of Physical Chemistry B, ISSN 1520-6106, 07/2010, Volume 114, Issue 29, pp. 9391 - 9399
Hydrophobic polyelectrolytes are known to form necklace-like structures of dense beads connected by strings of monomers. This structure appears as a result of...
B: Macromolecules, Soft Matter | AQUEOUS-ELECTROLYTE | COUNTERION CONDENSATION | POLYELECTROLYTE SOLUTIONS | HYDROPHOBIC POLYELECTROLYTES | NECKLACE FORMATION | CHEMISTRY, PHYSICAL | X-RAY-SCATTERING | FORCE-FIELD | POOR SOLVENT | FLEXIBLE POLYELECTROLYTES | NUCLEIC-ACIDS | Usage | Analysis | Hydrophobic effect | Molecular dynamics | Polymerization | Chemical properties | Polystyrene | Structure | Sulfones
B: Macromolecules, Soft Matter | AQUEOUS-ELECTROLYTE | COUNTERION CONDENSATION | POLYELECTROLYTE SOLUTIONS | HYDROPHOBIC POLYELECTROLYTES | NECKLACE FORMATION | CHEMISTRY, PHYSICAL | X-RAY-SCATTERING | FORCE-FIELD | POOR SOLVENT | FLEXIBLE POLYELECTROLYTES | NUCLEIC-ACIDS | Usage | Analysis | Hydrophobic effect | Molecular dynamics | Polymerization | Chemical properties | Polystyrene | Structure | Sulfones
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Loading RightsPhysica A: Statistical Mechanics and its Applications, ISSN 0378-4371, 2010, Volume 389, Issue 4, pp. 723 - 730
The consequences of discretization on the resulting viscosity for the necklace model are analyzed to find out the mechanisms by which this model leads to...
Viscosity | Monte Carlo simulations | Reptation | Necklace model | PHYSICS, MULTIDISCIPLINARY | TUBE MODEL | RHEOLOGY | MELTS | ENTANGLED POLYMERS | EXPLANATION | DYNAMICS | SYSTEMS | DIFFUSION | LIQUIDS | Discretization | Random walk | Fluctuation | Statistical mechanics | Temporal logic | Complexity
Viscosity | Monte Carlo simulations | Reptation | Necklace model | PHYSICS, MULTIDISCIPLINARY | TUBE MODEL | RHEOLOGY | MELTS | ENTANGLED POLYMERS | EXPLANATION | DYNAMICS | SYSTEMS | DIFFUSION | LIQUIDS | Discretization | Random walk | Fluctuation | Statistical mechanics | Temporal logic | Complexity
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Loading RightsMacromolecules, ISSN 0024-9297, 10/2016, Volume 49, Issue 19, pp. 7571 - 7580
Systematically coarse-grained (CG) force field models are state point dependent and therefore are usually not transferable to different chemistries and...
UNITED-ATOM DESCRIPTION | EXPLICIT SOLVENT | POLYMER SCIENCE | POLYELECTROLYTE SOLUTIONS | TRANSFERABLE POTENTIALS | NECKLACE FORMATION | IMPLICIT SOLVENT MODELS | POOR SOLVENT | ATOMISTIC SIMULATIONS | PHASE-EQUILIBRIA | MOLECULAR-DYNAMICS SIMULATIONS
UNITED-ATOM DESCRIPTION | EXPLICIT SOLVENT | POLYMER SCIENCE | POLYELECTROLYTE SOLUTIONS | TRANSFERABLE POTENTIALS | NECKLACE FORMATION | IMPLICIT SOLVENT MODELS | POOR SOLVENT | ATOMISTIC SIMULATIONS | PHASE-EQUILIBRIA | MOLECULAR-DYNAMICS SIMULATIONS
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Loading RightsJournal of Physics Condensed Matter, ISSN 0953-8984, 04/2015, Volume 27, Issue 15, p. 155601
The Kondo-necklace model can describe magnetic low-energy limit of strongly correlated heavy fermion materials. There exist multiple energy scales in this...
concurrence | perturbative continuous unitary transformation (PCUT) | Kondo-necklace (KN) model | quantum phase transition (QPT) | PHYSICS, CONDENSED MATTER | FLOW-EQUATIONS | ENTANGLEMENT | STATE | LATTICE | RENORMALIZATION
concurrence | perturbative continuous unitary transformation (PCUT) | Kondo-necklace (KN) model | quantum phase transition (QPT) | PHYSICS, CONDENSED MATTER | FLOW-EQUATIONS | ENTANGLEMENT | STATE | LATTICE | RENORMALIZATION
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Loading RightsPhysica B: Physics of Condensed Matter, ISSN 0921-4526, 08/2014, Volume 446, pp. 22 - 27
We have studied Kondo spin liquid phase of Kondo necklace models from the perspective of quantum O(N) non-linear sigma model (NLSM) field theory, particularly...
NLSM | Kondo necklace | SPT | PHYSICS, CONDENSED MATTER | INSULATOR | LATTICE | Jewelry | Models | Anisotropy | Analysis | Spin liquid | Condensed matter | Mathematical models | Topology | Two dimensional | Deviation | Three dimensional | Symmetry
NLSM | Kondo necklace | SPT | PHYSICS, CONDENSED MATTER | INSULATOR | LATTICE | Jewelry | Models | Anisotropy | Analysis | Spin liquid | Condensed matter | Mathematical models | Topology | Two dimensional | Deviation | Three dimensional | Symmetry
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Loading RightsPhysica B: Physics of Condensed Matter, ISSN 0921-4526, 2009, Volume 404, Issue 18, pp. 2868 - 2871
We study the one-dimensional anisotropic Kondo necklace model at zero temperature through White's density matrix renormalization group technique. The ground...
Kondo necklace | Kosterlitz–Thouless transition | DMRG | Spin gap | Kosterlitz-Thouless transition | PHYSICS, CONDENSED MATTER | DENSITY-MATRIX RENORMALIZATION | GAP-FORMATION | Anisotropy | Jewelry | Analysis
Kondo necklace | Kosterlitz–Thouless transition | DMRG | Spin gap | Kosterlitz-Thouless transition | PHYSICS, CONDENSED MATTER | DENSITY-MATRIX RENORMALIZATION | GAP-FORMATION | Anisotropy | Jewelry | Analysis
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Loading RightsInternational Journal of Modern Physics B, ISSN 0217-9792, 12/2010, Volume 24, Issue 31, pp. 6165 - 6174
We study the entanglement in the one-dimensional Kondo necklace model with exact diagonalization, calculating the concurrence as a function of the Kondo...
Anisotropic Kondo necklace | quantum phase transition | entanglement | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | QUANTUM PHASE-TRANSITION | STATE | PLANAR | PHYSICS, MATHEMATICAL | LATTICE | Anisotropy | Jewelry | Analysis
Anisotropic Kondo necklace | quantum phase transition | entanglement | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | QUANTUM PHASE-TRANSITION | STATE | PLANAR | PHYSICS, MATHEMATICAL | LATTICE | Anisotropy | Jewelry | Analysis
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Loading RightsJournal of Computational Information Systems, ISSN 1553-9105, 01/2012, Volume 8, Issue 1, pp. 81 - 89
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Variational Monte Carlo study of the Kondo necklace model with geometrical frustration
Journal of the Physical Society of Japan, ISSN 0031-9015, 07/2011, Volume 80, Issue Suppl.A, p. SA133
We investigate the ground state of the Kondo necklace model on geometrically-frustrated lattices by the variational Monte Carlo simulation. To explore the...
Kondo necklace model | Triangular lattice | Kagome lattice | RKKY interaction | Variational Monte Carlo method | Geometrical frustration | Kondo coupling | Partial order | variational Monte Carlo method | triangular lattice | PHYSICS, MULTIDISCIPLINARY | kagome lattice | partial order | geometrical frustration | Physics - Strongly Correlated Electrons
Kondo necklace model | Triangular lattice | Kagome lattice | RKKY interaction | Variational Monte Carlo method | Geometrical frustration | Kondo coupling | Partial order | variational Monte Carlo method | triangular lattice | PHYSICS, MULTIDISCIPLINARY | kagome lattice | partial order | geometrical frustration | Physics - Strongly Correlated Electrons
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Loading RightsJournal of Magnetism and Magnetic Materials, ISSN 0304-8853, 2009, Volume 321, Issue 5, pp. 348 - 353
The Ising-like anisotropy parameter in the Kondo necklace model is analyzed using the bond-operator method at zero and finite temperatures for arbitrary...
Anisotropic Kondo necklace model | Kondo insulator | Quantum phase transition | RENORMALIZATION-GROUP | PHYSICS, CONDENSED MATTER | ELECTRON | MATERIALS SCIENCE, MULTIDISCIPLINARY | ANTIFERROMAGNETISM | SPIN-LIQUID | TEMPERATURE | SYSTEMS | LATTICE MODEL | PHASE-DIAGRAM | GAP-FORMATION | Thermodynamics | Jewelry | Anisotropy | Analysis | Magnetic properties
Anisotropic Kondo necklace model | Kondo insulator | Quantum phase transition | RENORMALIZATION-GROUP | PHYSICS, CONDENSED MATTER | ELECTRON | MATERIALS SCIENCE, MULTIDISCIPLINARY | ANTIFERROMAGNETISM | SPIN-LIQUID | TEMPERATURE | SYSTEMS | LATTICE MODEL | PHASE-DIAGRAM | GAP-FORMATION | Thermodynamics | Jewelry | Anisotropy | Analysis | Magnetic properties
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Loading RightsREVISTA MEXICANA DE FISICA, ISSN 0035-001X, 12/2012, Volume 58, Issue 2, pp. 195 - 198
We use the density matrix renormalization group to calculate the von Neumann block entropy in the Kondo necklace model. We have included two anisotropies: eta...
quantum phase transition | block entropy | QUANTUM PHASE-TRANSITION | Anisotropic Kondo necklace | PHYSICS, MULTIDISCIPLINARY | LATTICE
quantum phase transition | block entropy | QUANTUM PHASE-TRANSITION | Anisotropic Kondo necklace | PHYSICS, MULTIDISCIPLINARY | LATTICE
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Loading RightsJournal of Computational Physics, ISSN 0021-9991, 02/2016, Volume 306, pp. 311 - 319
A lattice Boltzmann model for solving the three-dimensional cubic-quintic complex Ginzburg–Landau equation (CQCGLE) is proposed. Differently from the classic...
Vortex tori | Lattice Boltzmann model | Complex cubic-quintic Ginzburg–Landau equation | Complex cubic-quintic Ginzburg-Landau equation | FOCUSING KERR MEDIA | BEAMS | MODEL | NONLINEAR SCHRODINGER-EQUATION | PHYSICS, MATHEMATICAL | ACCURACY | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | QUANTUM-MECHANICS | NECKLACE-RING PATTERNS | SCHEMES | Analysis | Models | Algorithms | Toruses | Mathematical analysis | Vortices | Lattices | Fluid flow | Evolution | Mathematical models | Three dimensional
Vortex tori | Lattice Boltzmann model | Complex cubic-quintic Ginzburg–Landau equation | Complex cubic-quintic Ginzburg-Landau equation | FOCUSING KERR MEDIA | BEAMS | MODEL | NONLINEAR SCHRODINGER-EQUATION | PHYSICS, MATHEMATICAL | ACCURACY | COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS | QUANTUM-MECHANICS | NECKLACE-RING PATTERNS | SCHEMES | Analysis | Models | Algorithms | Toruses | Mathematical analysis | Vortices | Lattices | Fluid flow | Evolution | Mathematical models | Three dimensional
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Loading RightsJournal of Chemical Physics, ISSN 0021-9606, 05/2003, Volume 118, Issue 18, pp. 8525 - 8536
Fluid phase separation in model athermal mixtures of colloids and polymers is examined by means of the first-order thermodynamic perturbation theory of...
DRIVEN PHASE-TRANSITIONS | HARD-SPHERE MIXTURES | BEHAVIOR | CHAIN MOLECULES | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | EXACTLY SOLVABLE MODEL | CHEMISTRY, PHYSICAL | MONTE-CARLO SIMULATION | COMPUTER-SIMULATION | PEARL-NECKLACE MODEL | SEPARATION | EQUATION | Chemical engineering | Chemical Sciences
DRIVEN PHASE-TRANSITIONS | HARD-SPHERE MIXTURES | BEHAVIOR | CHAIN MOLECULES | PHYSICS, ATOMIC, MOLECULAR & CHEMICAL | EXACTLY SOLVABLE MODEL | CHEMISTRY, PHYSICAL | MONTE-CARLO SIMULATION | COMPUTER-SIMULATION | PEARL-NECKLACE MODEL | SEPARATION | EQUATION | Chemical engineering | Chemical Sciences
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Drift velocity in the necklace model for reptation in a two-dimensional square lattice
Physica A: Statistical Mechanics and its Applications, ISSN 0378-4371, 2009, Volume 388, Issue 11, pp. 2149 - 2156
We report the chain dynamics in the necklace model that mimics the reptation of a chain of particles in a two-dimensional square lattice. We focus on the drift...
Drift | Monte Carlo simulations | Reptation | Necklace model | CHAIN | ELECTROPHORESIS | PHYSICS, MULTIDISCIPLINARY | DISCRETIZED MODEL | DNA | DIFFUSION | CHARGED POLYMERS | Monte Carlo method | Jewelry | Models | Analysis
Drift | Monte Carlo simulations | Reptation | Necklace model | CHAIN | ELECTROPHORESIS | PHYSICS, MULTIDISCIPLINARY | DISCRETIZED MODEL | DNA | DIFFUSION | CHARGED POLYMERS | Monte Carlo method | Jewelry | Models | Analysis
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Loading RightsFizika Nizkikh Temperatur, ISSN 0132-6414, 06/2012, Volume 38, Issue 6, pp. 606 - 615
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Proceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 8/2010, Volume 107, Issue 33, pp. 14697 - 14702
Mutations in the MTM1 gene encoding myotubularin cause X-linked myotubular myopathy (XLMTM), a well-defined subtype of human centronuclear myopathy. Seven male...
Animal models | Necklaces | Phosphatases | Muscular diseases | Canines | Dogs | Muscles | Biopsies | Genetic mutation | Skeletal muscle | Congenital myopathy | Animal model | Canine myopathy | Myotubularin | Necklace fibers | myotubularin | CENTRONUCLEAR MYOPATHY | MULTIDISCIPLINARY SCIENCES | MUSCULAR-DYSTROPHY | PHENOTYPE | HOMOLOG | canine myopathy | necklace fibers | FAMILY | PHOSPHATASE MYOTUBULARIN | MUSCLE-FIBERS | DOGS | LIPID PHOSPHATASE | animal model | SURVIVORS | congenital myopathy | Haplotypes | Humans | Cercopithecus aethiops | Molecular Sequence Data | Male | Muscle, Skeletal - metabolism | Myopathies, Structural, Congenital - genetics | Myopathies, Structural, Congenital - veterinary | Green Fluorescent Proteins - genetics | Dog Diseases - pathology | Base Sequence | Protein Tyrosine Phosphatases, Non-Receptor - genetics | Female | Genetic Diseases, X-Linked - genetics | Fluorescent Antibody Technique, Indirect | Amino Acid Sequence | Green Fluorescent Proteins - metabolism | Muscle, Skeletal - ultrastructure | Dog Diseases - genetics | Genotype | Microscopy, Electron | Mice, Knockout | Sequence Homology, Amino Acid | Animals | Pedigree | Protein Tyrosine Phosphatases, Non-Receptor - metabolism | Myopathies, Structural, Congenital - pathology | Genetic Diseases, X-Linked - pathology | Mice | Muscle, Skeletal - pathology | Mutation | COS Cells | Muscle diseases | Genetic aspects | Gene mutations | Properties | Identification and classification | Microtubules | MTM1 gene | Myotubes | Exons | Fetuses | X chromosome | proteasomes | Tubules | Data processing | Nuclei | Atrophy | Mitochondria | Biopsy | Protein folding | Age | Myopathy | Life Sciences | Genetics | Biological Sciences
Animal models | Necklaces | Phosphatases | Muscular diseases | Canines | Dogs | Muscles | Biopsies | Genetic mutation | Skeletal muscle | Congenital myopathy | Animal model | Canine myopathy | Myotubularin | Necklace fibers | myotubularin | CENTRONUCLEAR MYOPATHY | MULTIDISCIPLINARY SCIENCES | MUSCULAR-DYSTROPHY | PHENOTYPE | HOMOLOG | canine myopathy | necklace fibers | FAMILY | PHOSPHATASE MYOTUBULARIN | MUSCLE-FIBERS | DOGS | LIPID PHOSPHATASE | animal model | SURVIVORS | congenital myopathy | Haplotypes | Humans | Cercopithecus aethiops | Molecular Sequence Data | Male | Muscle, Skeletal - metabolism | Myopathies, Structural, Congenital - genetics | Myopathies, Structural, Congenital - veterinary | Green Fluorescent Proteins - genetics | Dog Diseases - pathology | Base Sequence | Protein Tyrosine Phosphatases, Non-Receptor - genetics | Female | Genetic Diseases, X-Linked - genetics | Fluorescent Antibody Technique, Indirect | Amino Acid Sequence | Green Fluorescent Proteins - metabolism | Muscle, Skeletal - ultrastructure | Dog Diseases - genetics | Genotype | Microscopy, Electron | Mice, Knockout | Sequence Homology, Amino Acid | Animals | Pedigree | Protein Tyrosine Phosphatases, Non-Receptor - metabolism | Myopathies, Structural, Congenital - pathology | Genetic Diseases, X-Linked - pathology | Mice | Muscle, Skeletal - pathology | Mutation | COS Cells | Muscle diseases | Genetic aspects | Gene mutations | Properties | Identification and classification | Microtubules | MTM1 gene | Myotubes | Exons | Fetuses | X chromosome | proteasomes | Tubules | Data processing | Nuclei | Atrophy | Mitochondria | Biopsy | Protein folding | Age | Myopathy | Life Sciences | Genetics | Biological Sciences
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Loading RightsJournal of Magnetism and Magnetic Materials, ISSN 0304-8853, 2008, Volume 320, Issue 14, pp. e461 - e463
The Kondo necklace model augmented by a Zeeman term, serves as a useful model for heavy fermion compounds in an applied magnetic field. The phase diagram and...
Kondo necklace model | Kondo insulator | Quantum phase transition | quantum phase transition | PHYSICS, CONDENSED MATTER | MATERIALS SCIENCE, MULTIDISCIPLINARY | ANTIFERROMAGNETS | Thermodynamics | Jewelry | Magnetic fields | Analysis
Kondo necklace model | Kondo insulator | Quantum phase transition | quantum phase transition | PHYSICS, CONDENSED MATTER | MATERIALS SCIENCE, MULTIDISCIPLINARY | ANTIFERROMAGNETS | Thermodynamics | Jewelry | Magnetic fields | Analysis
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Loading RightsActa Tabacaria Sinica, ISSN 1004-5708, 06/2013, Volume 19, Issue 3, pp. 72 - 76
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