Search results for "Optical and electrical propertie"

showing 3 items of 3 documents

Electrochemical Fabrication and Physicochemical Characterization of Metal/High-k Insulating Oxide/Polymer/Electrolyte Junctions

2014

Photoelectrochemical polymerization of poly(3,4-ethylenedioxythiophene), PEDOT, was successfully realized on anodic film grown to 50 V on magnetron sputtered Ti-6 atom % Si alloys. Scanning electron microscopy allowed us to evidence formation of compact and uniform polymer layers on the oxide surface. Photoelectrochemical and impedance measurements showed that photopolymerization allows one to grow PEDOT in its conducting state, while a strong cathodic polarization is necessary to bring the polymer in its p-type semiconducting state. Information on the optical and electrical properties of metal/oxide/polymer/electrolyte junctions proves that PEDOT has promising performance as an electrolyte…

Materials scienceFabricationElectrochemical fabricationInorganic chemistryImpedance measurementOxidePhysico-chemical characterizationPoly-3 4-ethylenedioxythiopheneElectrolyteElectrochemistrySettore ING-INF/01 - ElettronicaPhotoelectrochemistrychemistry.chemical_compoundPEDOT:PSSPhysical and Theoretical ChemistryConducting statechemistry.chemical_classificationPhotopolymerizationCathodic polarizationPolymerSilicon alloySurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsOptical and electrical propertieSettore ING-IND/23 - Chimica Fisica ApplicataGeneral EnergychemistryPolymerizationCavity magnetronLithium IntercalationTitanium alloyScanning electron microscopyThe Journal of Physical Chemistry C
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Sputtered cuprous oxide thin films and nitrogen doping by ion implantation

2016

Abstract The structural, optical and electrical properties of sputtered cuprous oxide thin films have been optimized through post-deposition thermal treatments. Moreover we have studied the effects of nitrogen doping introduced by ion implantation followed by the optimized oxidant thermal annealing. Three concentrations have been used, 0.6 N%, 1.2 N%, and 2.5 N%. Along with the preservation of the Cu 2 O phase, a slight optical band gap narrowing and a significant conductivity enhancement has been observed with respect to the undoped samples. These results can be justified by the absence of further oxygen vacancies promoted by dopant introduction and by the substitution of O atoms by N ones…

OxidantPostimplantation annealingLattice configurationMaterials scienceBand gapAnnealing (metallurgy)NitrogenInorganic chemistryOxidePhotovoltaic application02 engineering and technology01 natural sciencesOxygen vacancieSettore ING-INF/01 - ElettronicaSettore FIS/03 - Fisica Della Materiachemistry.chemical_compoundSputtering0103 physical sciencesMaterials ChemistryDopingSemiconductor dopingConductivity enhancementDoping (additives)Thin filmIonDepositionOxide film010302 applied physicsDopantDopingMetals and AlloysSputteringSurfaces and Interfaces021001 nanoscience & nanotechnologyOut of equilibriumSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsEnergy gapOptical and electrical propertieIon implantationchemistryIon implantationThermal-annealing0210 nano-technologyCopperCuprous oxide
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Optimization of ZnO:Al/Ag/ZnO:Al structures for ultra-thin high-performance transparent conductive electrodes

2012

Al-doped ZnO (AZO)/Ag/AZO multilayer coatings (50-70 nm thick) were grown at room temperature on glass substrates with different silver layer thickness, from 3 to 19 nm, by using radio frequency magnetron sputtering. Thermal stability of the compositional, optical and electrical properties of the AZO/Ag/AZO structures were investigated up to 400 °C and as a function of Ag film thickness. An AZO film as thin as 20 nm is an excellent barrier to Ag diffusion. The inclusion of 9.5 nm thin silver layer within the transparent conductive oxide (TCO) material leads to a maximum enhancement of the electro-optical characteristics. The excellent measured properties of low resistance, high transmittanc…

High transmittanceDiffusionrf-Magnetron sputteringElectro-optical characteristicGlass substrateTransparent conductive oxide RF magnetron sputtering Optical properties Electrical resistivity Al-doped zinc oxide Silver MultilayersSettore ING-INF/01 - ElettronicaSUBSTRATE-TEMPERATUREAg diffusionAl-doped ZnOLow resistanceMultilayerZNOMaterials ChemistryVisible spectral rangeMULTILAYER FILMSAl-doped zinc oxideOptical propertiesMetals and AlloysAZO filmElectrical resistivityOPTICAL-PROPERTIESOXIDE-FILMSSurfaces and InterfacesZinc oxide AluminumRadio frequency magnetron sputteringSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsOptical and electrical propertieElectrodeOptoelectronicsFilm preparationLayer (electronics)Magnetron sputteringUltra-thinRF magnetron sputteringMaterials scienceSilverThermodynamic stabilityOpticsTransparent conductive oxideElectrical resistivity and conductivityThermal stabilityElectrical conductorTransparent conducting filmRoom temperatureThin film solar cellbusiness.industryTransparent conductiveOptical propertieSilver layerHigh transmittanceMultilayersMulti-layer-coatingZnO Electric conductivityMeasured propertiebusinessSubstrate
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