Search results for "Semiconductor growth"

showing 6 items of 6 documents

Growth and optical characterization of indirect-gap AlxGa1−xAs alloys

1999

Nonintentionally doped AlxGa1−xAs layers with 0.38 x 0.84 were grown on (100) GaAs substrates by liquid phase epitaxy (LPE) under near-equilibrium conditions. The crystalline quality of the samples was studied by photoluminescence at 2 K and room temperature Raman spectroscopy. The peculiar behavior in the photoluminescence intensities of the indirect bound exciton line and the donor–acceptor pair transition is explained from the evolution of the silicon donor binding energy according to the aluminum composition. It was also possible to observe the excitonic transition corresponding to the AlxGa1−xAs/GaAs interface, despite the disorder and other factors which are normally involved when gro…

PhotoluminescenceMaterials scienceIII-V semiconductorsSiliconExcitonBinding energyGeneral Physics and Astronomychemistry.chemical_elementBinding energyEpitaxyMolecular physicssymbols.namesakePhonon spectraLiquid phase epitaxial growth:FÍSICA [UNESCO]PhotoluminescenceAluminium compoundsX-ray absorption spectroscopyGallium arsenide Semiconductor growthImpurity statesDopingUNESCO::FÍSICASemiconductor epitaxial layersCrystallographychemistrysymbolsPhotoluminescence ; Binding energy ; Raman spectra ; III-V semiconductors ; Aluminium compounds ; Gallium arsenide Semiconductor growth ; Liquid phase epitaxial growth ; Semiconductor epitaxial layers ; Impurity states ; Excitons ; Phonon spectraExcitonsRaman spectraRaman spectroscopy
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Single quantum dot emission at telecom wavelengths from metamorphic InAs/InGaAs nanostructures grown on GaAs substrates

2011

3 figuras, 3 páginas.

Molecular beam epitaxial growthPhotoluminescenceMaterials sciencePhotonIII-V semiconductorsPhysics and Astronomy (miscellaneous)ExcitonInAs/GaAs Quantum DotsPhysics::OpticsSemiconductor growthEpitaxyNanofabricationGallium arsenidechemistry.chemical_compoundCondensed Matter::Materials ScienceAtomic force microscopyGallium arsenideIndium compoundsSemiconductor quantum dotsPhotoluminescencebusiness.industryNanostructured materialsCondensed Matter::Mesoscopic Systems and Quantum Hall EffectNanolithographychemistryQuantum dotOptoelectronicsExcitonsbusinessTelecommunicationsMolecular beam epitaxy
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Photoconductive properties of Bi2S3nanowires

2015

The photoconductive properties of Bi2S3 nanowires synthesized inside anodized alumina (AAO) membrane have been characterized as a function of illuminating photon energy between the wavelengths of 500 to 900 nm and at constant illumination intensity of 1–4 μW·cm−2. Photoconductivity spectra, photocurrent values, photocurrent onset/decay times of individual Bi2S3 nanowires liberated from the AAO membrane were determined and compared with those of arrays of as-produced Bi2S3 nanowires templated inside pores of AAO membrane. The alumina membrane was found to significantly influence the photoconductive properties of the AAO-hosted Bi2S3 nanowires, when compared to liberated from the AAO membrane…

Materials sciencePhotoconductivityPHOTODETECTORSThin filmsPhotoconductivity spectrumAluminaNanowireGeneral Physics and AstronomyNanotechnologySemiconductor growth02 engineering and technology010402 general chemistryNanofabrication01 natural sciencesSemiconductor materialsTHIN-FILMSThin filmONE-DIMENSIONAL NANOSTRUCTURESArraysPhotocurrentOne-dimensional nanostructuresMembranesNanowire surfaceNanowiresbusiness.industryAnodizingPhotoconductivityPhotodetectors021001 nanoscience & nanotechnologyCharge carrier trappingARRAYS0104 chemical sciencesMembraneNanolithographyIllumination intensityAnodized aluminaPhotoconductive propertiesSemiconductor quantum wiresOptoelectronicsAlumina membranesCharge carrierElectron trapsPhoton energy0210 nano-technologybusinessBismuth compoundsJournal of Applied Physics
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Faceting and structural anisotropy of nanopatterned CdO(110) layers

2005

CdO(110) layers with a self-organized surface structure have been grown on (10math0) sapphire (m plane) substrates by metal-organic vapor phase epitaxy. The epitaxial relationships between layer and substrate have been determined and a crystallographic model that accounts for the CdO in-plane orientation, which results in a reduced lattice mismatch when the CdO[001] direction is perpendicular to the sapphire c axis, has been proposed. Although the measured lattice parameters indicate that the layers are almost fully relaxed, an anisotropic mosaicity is detected with symmetrical rocking curves attaining minimum values when measured along the CdO[math10] direction. The layer morphology consis…

Materials scienceGeneral Physics and AstronomySemiconductor growthEpitaxyMosaicityVapour phase epitaxial growthCadmium compound ; Semiconductor epitaxial layers ; II-VI semiconductors ; Semiconductor growth ; Vapour phase epitaxial growth ; MOCVD ; Nanopatterning ; Self-assembly ; Lattice constants ; Mosaic structure ; Surface morphologyLattice constant:FÍSICA [UNESCO]PerpendicularMetalorganic vapour phase epitaxyAnisotropyCondensed matter physicsUNESCO::FÍSICASemiconductor epitaxial layersLattice constantsNanopatterningII-VI semiconductorsSelf-assemblyFacetingCrystallographyCadmium compoundMOCVDSapphireSurface morphologyMosaic structure
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Optical and magnetic properties of ZnCoO thin films synthesized by electrodeposition

2008

Ternary Zn1−xCoxO crystalline films with different compositions were grown by electrodeposition. The Co content in the final compound is linked to the initial Co/Zn ratio in the starting solution. X-ray diffraction reveals a wurtzite structure for the Zn1−xCoxO films. Transmittance spectra show two effects proportional to Co content, a redshift of the absorption edge and three absorption bands, which are both interpreted to be due to the Co incorporated into the ZnO lattice. The amount of deposited charge was used to get a precise control of the film thickness. Magnetic measurements point out that Co(II) ions are isolated from each other, and consequently the films are paramagnetic. Francis…

Materials scienceCobalt ; Electrodeposition ; Magnetic susceptibility ; Magnetic thin films ; Magnetisation ; Paramagnetic materials ; Semiconductor growth ; Semiconductor thin films ; Semimagnetic semiconductors ; Zinc compoundsParamagnetic materialsAnalytical chemistryUNESCO::FÍSICAGeneral Physics and AstronomySemiconductor thin filmsMagnetic semiconductorCobaltSemiconductor growthMagnetic susceptibilityMagnetic susceptibilityMagnetizationParamagnetismNuclear magnetic resonanceMagnetic thin filmsMagnetisationAbsorption edgeElectrodeposition:FÍSICA [UNESCO]Semimagnetic semiconductorsZinc compoundsThin filmTernary operationWurtzite crystal structure
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Structural defects in Hg1−xCdxI2 layers grown on CdTe substrates by vapor phase epitaxy

1997

Hg1−xCdxI2 20–25-μm-thick layers with a uniform composition in the range of x = 0.1–0.2 were grown on CdTe substrates by vapor phase epitaxy (VPE). The growth was carried out using an α-HgI2 polycrystalline source at 200 °C and in the time range of 30–100 h. The layers were studied by scanning electron microscopy (SEM) and high resolution synchrotron x-ray topography (SXRT). The SEM and SXRT images of Hg1−xCdxI2 VPE layers allow one to identify the defects affecting the layer structure. The two main types of structural defects in the layers are subgrain boundaries and densely spaced striations similar to those referred generally to as vapor grown HgI2 bulk crystals. The effect of the growth…

Materials scienceSemiconductor MaterialsGrain BoundariesScanning electron microscopeVapor phaseGeneral Physics and AstronomyMercury Compounds ; Cadmium Compounds ; Semiconductor Materials ; Vapour Phase Epitaxial Growth ; Semiconductor Growth ; Semiconductor Epitaxial Layers ; Scanning Electron Microscopy ; X-Ray Topography ; Grain BoundariesEpitaxylaw.inventionlaw:FÍSICA [UNESCO]Cadmium CompoundsSemiconductor Epitaxial Layersbusiness.industryMercury CompoundsX-Ray TopographyUNESCO::FÍSICASynchrotronCadmium telluride photovoltaicsCrystallographySemiconductor GrowthOptoelectronicsVapour Phase Epitaxial GrowthGrain boundaryCrystalliteScanning Electron MicroscopybusinessLayer (electronics)
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