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Calcium binding and and ionic conduction in single conical nanopores with polyacid chains: model and experiments

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Calcium binding and and ionic conduction in single conical nanopores with polyacid chains: model and experiments

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Ali, M.; Nasir, S.; Ramirez Hoyos, P.; Cervera, J.; Mafe, S.; Ensinger, W. (2012). Calcium binding and and ionic conduction in single conical nanopores with polyacid chains: model and experiments. ACS Nano. 6(10):9247-9257. doi:10.1021/nn303669g.

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Título: Calcium binding and and ionic conduction in single conical nanopores with polyacid chains: model and experiments
Autor:
Entidad UPV: Universitat Politècnica de València. Departamento de Física Aplicada - Departament de Física Aplicada
Fecha difusión:
Resumen:
Calcium binding to fixed charge groups confined over nanoscale regions is relevant to ion equilibrium and transport in the ionic channels of the cell membranes and artificial nanopores. We present an experimental and ...[+]
Palabras clave: Calcium binding , Conical nanopore , Current-voltage curves , Dissociation equilibria , Applied potentials , Biological ion channels , Calcium concentration , Carboxylic acid groups , Conical nanopores , Controlled drug release , Current voltage curve , Desalination membranes , Fixed charge density , Fixed Charges , Functionalized , I - V curve , Ion binding , Ion equilibrium , Ionic channels , Ionic current , Nanoscale regions , Nernst-Planck equations , Partition functions , PH sensitive , Phosphonate group , Phosphonic acid groups , Phosphonic acids , Poly acids , Pore wall , Reversible dissociation , Carboxylation , Carboxylic acids , Cell membranes , Cytology , Desalination , Dissociation , Functional groups , Ions , Nanopores , PH effects , Quantum theory , Statistical mechanics , Thermodynamics , Water filtration , Calcium
Derechos de uso: Cerrado
Fuente:
ACS Nano. (issn: 1936-0851 )
DOI: 10.1021/nn303669g
Editorial:
American Chemical Society
Versión del editor: http://pubs.acs.org/doi/ipdf/10.1021/nn303669g
Tipo: Artículo

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