Search results for "Rectification"

showing 10 items of 44 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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Multipore membranes with nanofluidic diodes allowing multifunctional rectification and logical responses

2016

[EN] We have arranged two multipore membranes with conical nanopores in a three-compartment electrochemical cell. The membranes act as tunable nanofluidic diodes whose functionality is entirely based on the pH-reversed ion current rectification and does not require specific surface functionalizations. This electrochemical arrangement can display different electrical behaviors (quasi-linear ohmic response and inward/outward rectifications) as a function of the electrolyte concentration in the external solutions and the applied voltage at the pore tips. The multifunctional response permits to implement different logical responses including NOR and INHIBIT functions.

Logic functionsTechnologyMaterials sciencePhysics and Astronomy (miscellaneous)NanotechnologyNanofluidics02 engineering and technology010402 general chemistry01 natural sciencesElectrochemical cellEngineeringRectificationNanofluidic diodesMultipore membranesMultifunctional electrical responseOhmic contactApplied PhysicsDiodepH-reversed rectificationIon current021001 nanoscience & nanotechnology0104 chemical sciencesNanoporeMembraneFISICA APLICADAPhysical Sciences0210 nano-technologyApplied Physics Letters
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Current rectification in a single molecule diode: the role of electrode coupling.

2015

We demonstrate large rectification ratios (> 100) in single-molecule junctions based on a metal-oxide cluster (polyoxometalate), using a scanning tunneling microscope (STM) both at ambient conditions and at low temperature. These rectification ratios are the largest ever observed in a single-molecule junction, and in addition these junctions sustain current densities larger than 10^5 A/cm^2. By following the variation of the I-V characteristics with tip-molecule separation we demonstrate unambiguously that rectification is due to asymmetric coupling to the electrodes of a molecule with an asymmetric level structure. This mechanism can be implemented in other type of molecular junctions u…

Materials scienceAnalytical chemistryFOS: Physical sciencesBioengineering02 engineering and technology010402 general chemistry01 natural scienceslaw.inventionRectificationlawMesoscale and Nanoscale Physics (cond-mat.mes-hall)General Materials ScienceElectrical and Electronic EngineeringDiodeCondensed Matter - Mesoscale and Nanoscale Physicsbusiness.industryMechanical EngineeringGeneral ChemistryAtmospheric temperature range021001 nanoscience & nanotechnology0104 chemical sciencesCoupling (electronics)Mechanics of MaterialsElectrodeOptoelectronicsElectric currentScanning tunneling microscope0210 nano-technologybusinessCurrent densityNanotechnology
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Generation of broadband THz transients via metallic spintronic emitters driven by 20-fs pulses at 1030 nm

2020

We explore power and bandwidth scaling for the generation of highly-temporally-confined THz transients from spintronic emitters, driven by the 250-fs and 20-fs pulses of a high-power 28-MHz Yb-based laser, spectrally centered at 1030 nm.

Materials scienceSpintronicsTerahertz radiationbusiness.industryBandwidth (signal processing)02 engineering and technology021001 nanoscience & nanotechnologyLaser01 natural scienceslaw.invention010309 opticsOptical rectificationlawElectric field0103 physical sciencesBroadbandOptoelectronicsPhotonics0210 nano-technologybusinessConference on Lasers and Electro-Optics
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Space-time features of THz emission from optical rectification in sub-wavelength areas

2011

We present our investigation on the THz space-time emission characteristic induced by the non-paraxial generation regime in highly localized THz generation via optical rectification on sub-wavelength areas.

Materials sciencebusiness.industryTerahertz radiationPhysics::OpticsNonlinear opticsTeraHertz science and deviceSettore ING-INF/01 - ElettronicaTerahertz spectroscopy and technologyOptical pumpingOptical rectificationOpticsRectificationMicroscopyOptoelectronicsNear-field scanning optical microscopebusiness
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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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Electrical Pumping of Potassium Ions Against an External Concentration Gradient in a Biological Ion Channel

2013

We show experimentally and theoretically that significant currents can be obtained with a biological ion channel, the OmpF porin of Escherichia coli, using zero-average potentials as driving forces. The channel rectifying properties can be used to pump potassium ions against an external concentration gradient under asymmetric pH conditions. The results are discussed in terms of the ionic selectivity and rectification ratio of the channel. The physical concepts involved may be applied to separation processes with synthetic nanopores and to bioelectrical phenomena. (C) 2013 AIP Publishing LLC.

MicroorganismosPhysics and Astronomy (miscellaneous)PotassiumSeparaciónRatchetAnalytical chemistryBiophysicschemistry.chemical_elementRATCHETPotassium ionsFenómenos bioeléctricosIonSeparationBioelelectric phenomenaRectificationPORINVOLTAGEPotasiomicroorganismsIon channelChemistrypHNANOFLUIDIC DIODEBiomembrane transportIones positivosRECTIFICATIONOMPFTransporte de biomembranasCanales iónicosNanoporeSELECTIVITYPositive ionsFISICA APLICADAIon channelsPotassiumSelectivityConcentration gradientCommunication channelNANOPORES
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Contrôle de nano-antennes optiques par une commande électrique : tuner plasmonique et transduction

2011

Optical nano-antennae are the new class of components to control light/matterinteraction at the nanoscale. These devices are operating in the visible to near infraredpart of the spectrum. The properties of these nano objects are controlled by theform, the size and the material.In the radio frequency domain, the tuner changes dynamically the operatingwavelength of the antenna. In this thesis work, we search to transfer this conceptto the nanoscale. The principle is to change the load impedance of the antenna, i.e.changing the optical index of the dielectric medium around the nano-object. Forthat we used anisotropic liquid cristal molecules. The value of the optical index iscontrolled by appl…

Microscopie à fuites radiatives[SPI.OTHER]Engineering Sciences [physics]/Other[ SPI.OTHER ] Engineering Sciences [physics]/OtherOptical rectificationTunnel junctionCarbon nanotubesLeakage radiation microscopyLiquid cristalOptical tunerGénération de seconde harmoniqueNanofabrication[PHYS.COND.CM-GEN] Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other]Rectification optiqueElectro-migrationNanotubes de carbonePlasmoniqueElectromigrationJonction tunnel[SPI.OTHER] Engineering Sciences [physics]/OtherOptical antenna[ PHYS.COND.CM-GEN ] Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other]Second harmonic generationPlasmonicTuner optiqueAntenne optiqueCristaux liquidesElectroluminescence[PHYS.COND.CM-GEN]Physics [physics]/Condensed Matter [cond-mat]/Other [cond-mat.other]
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Ionic conduction, rectification, and selectivity in single conical nanopores

2006

Modern track-etching methods allow the preparation of membranes containing a single charged conical nanopore that shows high ionic permselectivity due to the electrical interactions of the surface pore charges with the mobile ions in the aqueous solution. The nanopore has potential applications in electrically assisted single-particle detection, analysis, and separation of biomolecules. We present a detailed theoretical and experimental account of the effects of pore radii and electrolyte concentration on the current-voltage and current-concentration curves. The physical model used is based on the Nernst-Planck and Poisson equations. Since the validity of continuum models for the descriptio…

Models MolecularGeneral Physics and AstronomyIonic bondingRectificationNanotechnologyElectrolytePoisson equationIonElectrolytesBiopolymersIonic conductivityBiomembranesIonic conductivityComputer SimulationPoisson DistributionPhysical and Theoretical ChemistryParticle Size:FÍSICA::Química física [UNESCO]IonsPhysics::Biological PhysicsIon TransportChemistryElectric ConductivityWaterBiological TransportConical surfaceMolecular biophysicsNanostructuresUNESCO::FÍSICA::Química físicaSolutionsNanoporeMembraneBiomembranes ; Bioelectric phenomena ; Ionic conductivity ; Rectification ; Molecular biophysics ; Electrolytes ; Poisson equationChemical physicsBioelectric phenomenaPoisson's equationPorosity
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Asymmetric nanopore rectification for ion pumping, electrical power generation, and information processing applications

2011

Single-track, asymmetric nanopores can currently be functionalised with a spatially inhomogeneous distribution of fixed charges and a variety of pore tip shapes. Optimising the asymmetric nanopore characteristics is crucial for practical applications in nanofluidics. We have addressed here this question for three cases based on different input/output chemical and electrical signals: (i) ion pumping up a concentration gradient by means of a periodic, time-dependent bias potential, (ii) information processing with a single nanopore acting as the nanofluidic diode of a logic gate, and (iii) electrical energy harvesting using a nanopore that separates two solutions of different salt concentrati…

Nanofluidic diodes as logic gatesGeneral Chemical EngineeringMicrofluidicsConcentration gradientsNanofluidicsNanotechnologyPumpsIonNanoporesRectificationIonic conductionIonic transportElectrochemistryHarvestingDiodeIonsChemistrybusiness.industryConcentration (process)Energy harvestingElectric potential energyNanofluidicsCharge densityLogic gatesElectric rectifiersDiodesData processingNanoporeIon pumpingFISICA APLICADAOptoelectronicsbusinessSynthetic nanopores
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