Search results for "Molecular Transport"

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Protein diffusion through charged nanopores with different radii at low ionic strength

2014

[EN] The diffusion of two similar molecular weight proteins, bovine serum albumin (BSA) and bovine haemoglobin (BHb), through nanoporous charged membranes with a wide range of pore radii is studied at low ionic strength. The effects of the solution pH and the membrane pore diameter on the pore permeability allow quantifying the electrostatic interaction between the chargedpore and the protein. Because of the large screening Debye length, both surface and bulk diffusion occur simultaneously. By increasing the pore diameter, the permeability tends to the bulk self-diffusion coefficient for each protein. By decreasing the pore diameter, the charges on the pore surface electrostatically hinder …

Self assembled monolayersUltrafiltration membranesSurface PropertiesPHStatic ElectricityAnalytical chemistryGeneral Physics and AstronomyDiffusionHemoglobinsNanoporessymbols.namesakeProtein purificationAnimalsHemoglobinParticle SizePhysical and Theoretical ChemistryBovine serum albuminMolecular transportAqueous solutionsSerum AlbuminDebye lengthChemical PhysicsbiologyNanoporousChemistryOsmolar ConcentrationMicroporous membranesLight scatteringSerum Albumin BovineBovineHydrogen-Ion ConcentrationSurfaceNanoporeMembraneIsoelectric pointBovine serum albuminPermeability (electromagnetism)Chemical physicsFISICA APLICADAPhysical SciencesChemical Sciencesbiology.proteinsymbolsCattlePorosity
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Load-collapse-release cascades of amphiphilic guest molecules in charged dendronized polymers through spatial separation of noncovalent forces.

2012

The ability to pack guest molecules into charged dendronized polymers (denpols) and the possibility to release these guest molecules from subsequently densely aggregated denpols in a load-collapse-release cascade is described. Charged denpols, which constitute molecular objects with a persistent, well-defined envelope and interior, are capable of incorporating large amounts of amphiphilic guest molecules. Simultaneously, multivalent ions can coordinate to the surfaces of charged denpols, leading to counterion-induced aggregation of the already guest-loaded host structures. Thus, although the local guest concentration in denpol-based molecular transport might already be initially high due to…

chemistry.chemical_classificationMolecular StructureChemistryMacromolecular SubstancesPolymersOrganic ChemistryElectron Spin Resonance SpectroscopyNanotechnologymacromolecular substancesGeneral ChemistryPolymerCatalysisChemical physicsDivorceDendrimerAmphiphileMolecular TransportMoleculeHigh potentialMacromoleculeChemistry (Weinheim an der Bergstrasse, Germany)
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