Search results for "Current rectification"

showing 6 items of 6 documents

Optical Gating of Photosensitive Synthetic Ion Channels

2011

4-oxo-4-(pyren-4-ylmethoxy) butanoic acid is used as a photolabile protecting group to show the optical gating of nanofluidic devices based on synthetic ion channels. The inner surface of the channels is decorated with monolayers of photolabile hydrophobic molecules that can be removed by irradiation, which leads to the generation of hydrophilic groups. This process can be exploited in the UV-light-triggered permselective transport of ionic species in aqueous solution through the channels. The optical gating of a single conical nanochannel and multichannel polymeric membranes is characterised experimentally and theoretically by means of current-voltage and selective permeation measurements,…

Hydrophilic groupsMaterials scienceSynthetic ion channelsLight sensitive materialsHydrophobicitySynthetic membraneNanotechnologyNano-fluidic devicesGatingIonIonic transportsBiomaterialsPolymeric membranesOptical gatingPhotosensitivityOptical gatingsSynthetic ion channelsMonolayerElectrochemistryControlled releasePhotolabile protecting groupsIonic speciesPolymer membranesHydrophobic moleculesFunctional polymersSelective permeationHydrophilicityMultifunctional devicesMonolayersIonsAqueous solutionCurrent rectificationUV-light irradiationMulti-channelPermeationCondensed Matter PhysicsNanostructuresElectronic Optical and Magnetic MaterialsData processingPhotosensitive nanostructuresFISICA APLICADAIrradiationNano channelsInner surfacesFunctional polymersCurrent voltageAdvanced Functional Materials
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Fabrication of Single Cylindrical Au-Coated Nanopores with Non-Homogeneous Fixed Charge Distribution Exhibiting High Current Rectifications

2014

We have designed and characterized a cylindrical nanopore that exhibits high electrochemical current rectification ratios at low and intermediate electrolyte concentrations. For this purpose, the track-etched single cylindrical nanopore in polymer membrane is coated with a gold (Au) layer via electroless plating technique. Then, a non-homogeneous fixed charge distribution inside the Au-coated nanopore is obtained by incorporating thiol-terminated uncharged poly(N-isopropylacrylamide) (PNIPAM) chains in series to poly(4-vinyl pyridine) (PVP) chains, which are positively charged at acidic pH values. The functionalization reaction is checked by measuring the current–voltage (I–V) curves prior …

chemistry.chemical_classificationElectroless gold platingMaterials scienceCurrent rectificationNernst−Planck equationsNanotechnologyPolymerElectrolyteElectrochemistryIonStimuli-responsive polymersNanoporeAdsorptionMembranechemistryChemical engineeringChemisorptionFISICA APLICADAGeneral Materials ScienceSynthetic nanoporesChemical functionalization
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A redox-sensitive nanofluidic diode based on nicotinamide-modified asymmetric nanopores

2017

[EN] We demonstrate a redox-sensitive nanofluidic diode whose ion rectification is modulated by the oxidation and reduction of chemical moieties incorporated on its surface. To achieve this goal, we have first synthesized the chemical compounds 1-(4-aminobutyl)-3-carbamoylpyridin-1-ium (Nic-BuNH2) and 3-carbamoyl-1-(2,4-dinitrophenyl)pyridinium (Nic-DNP). Then, the surface of track-etched single asymmetric nanopores is decorated with the redox-sensitive Nic-BuNH2 and Nic-DNP molecules using carbodiimide coupling chemistry and Zincke reaction, respectively. The success of the modification reactions is monitored through the changes in the current¿voltage (I¿V) curves prior to and after pore f…

Track-etchingReducing agent02 engineering and technology010402 general chemistryPhotochemistry01 natural sciencesRedoxIonchemistry.chemical_compoundMaterials ChemistryMoleculeOrganic chemistryRedox reactionSurface chargeElectrical and Electronic EngineeringNicotinamideInstrumentationCurrent rectificationMetals and Alloys021001 nanoscience & nanotechnologyCondensed Matter Physics0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsNanoporechemistrySurface functionalizationFISICA APLICADASurface modificationPyridiniumSynthetic nanopores0210 nano-technologySensors and Actuators B: Chemical
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Tetraalkylammonium Cations Conduction through a Single Nanofluidic Diode: Experimental and Theoretical Studies

2017

[EN] We describe experimentally and theoretically the concentration-dependent conduction of tetraalkylammonium (TAA+) cations through a nanofluidic diode fabricated in a polymer membrane via asymmetric track-etching techniques. This single-pore membrane exhibits current rectification characteristics because of the ionized carboxylate groups on the pore surface. We use aqueous solutions of potassium (K+ ), ammonium (A+ ), tetramethylammonium (TMA+ ), tetraethylammonium (TEA+ ), and tetrabutylammonium (TBA+ ) ions with concentrations ranging from 50 to 500 mM under acidic (pH 3.5) and physiological (pH 6.5) conditions. Compared with the K+ and A+ ions, the TMA+ , TEA+ , and TBA+ ions show rel…

General Chemical EngineeringInorganic chemistryAnalytical chemistry02 engineering and technology010402 general chemistry01 natural sciencesIonchemistry.chemical_compoundAdsorptionElectrochemistryNernst-Planck equationCarboxylateSurface chargeAlkylTetraalkyammonium cationsTetramethylammoniumchemistry.chemical_classificationAqueous solutionBiomimetic nanoporeCurrent rectification021001 nanoscience & nanotechnology0104 chemical sciencesMembraneNanofluidic diodechemistryFISICA APLICADA0210 nano-technology
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Nanopore charge inversion and current-voltage curves in mixtures of asymmetric electrolytes

2018

[EN] We consider the screening of the negative charges (carboxylic acid groups) fixed on the surface of a conical-shaped track-etched nanopore by divalent magnesium (Mg2+) and trivalent lanthanum (La3+). The experimental current (I)-voltage (V) curves and current rectification ratios allow discussing fundamental questions about the overcompensation of spatially-fixed charges by multivalent ions over nanoscale volumes. The effects of charge inversion or reversal on nanopore transport are discussed in mixtures of asymmetric electrolytes (LaCl3 and MgCl2 with KCl). In particular, pore charge inversion is demonstrated for La3+ as well as for mixtures of this trivalent ion at low concentrations …

inorganic chemicalsCharged nanoporeMaterials scienceKineticschemistry.chemical_elementFiltration and Separation02 engineering and technologyElectrolyte010402 general chemistry01 natural sciencesBiochemistryDivalentIonLanthanumGeneral Materials SciencePhysical and Theoretical ChemistryMaterialsAsymmetric electrolyteschemistry.chemical_classificationCharge inversionNanotecnologiaCurrent rectification021001 nanoscience & nanotechnology0104 chemical sciencesNanoporeHysteresisMembranechemistryChemical physicsCurrent-voltage curveFISICA APLICADA0210 nano-technology
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Ionic Transport through Chemically Functionalized Hydrogen Peroxide-Sensitive Asymmetric Nanopores

2015

We describe the fabrication of a chemical-sensitive nanofluidic device based on asymmetric nanopores whose transport characteristics can be modulated upon exposure to hydrogen peroxide (H2O2). We show experimentally and theoretically that the current-voltage curves provide a suitable method to monitor the H2O2-mediated change in pore surface characteristics from the electronic readouts. We demonstrate also that the single pore characteristics can be scaled to the case of a multipore membrane whose electric outputs can be readily controlled. Because H2O2 is an agent significant for medical diagnostics, the results should be useful for sensing nanofluidic devices.

Medical diagnosticFabricationMaterials scienceSurface PropertiesIonic bondingNanotechnologyIonNernst-Planck equationsNanoporeschemistry.chemical_compoundGeneral Materials ScienceAminesHydrogen peroxideIon transporterIonsIon TransportCurrent rectificationPolyethylene TerephthalatesH2O2-sensitive porefood and beveragesHydrogen PeroxideModels TheoreticalNanoporeMembranechemistryFISICA APLICADAAsymmetric nanoporesChemical functionalizationACS Applied Materials & Interfaces
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