Search results for "Diffraction"

showing 10 items of 1584 documents

Quenching and blue shift of UV emission intensity of hydrothermally grown ZnO:Mn nanorods

2015

Abstract ZnO:Mn alloyed nanorods (Mn nominal concentration – 3–5 wt%) were synthesized by using hydrothermal process at an optimized growth temperature of 200 °C and a growth time of 3 h. The XRD, SEM and Raman, FTIR investigations reveal that ZnO:Mn (Mn – 3–5 wt%) retained hexagonal wurtzite crystal structure with nanorod morphology. The HRTEM and SAED analysis confirm the single crystalline nature of hydrothermally grown ZnO and ZnO:Mn (5 wt%) nanorods. The ZnO:Mn nanorods (Mn – 0–5 wt%) displayed optical band gap in the range 3.23–3.28 eV. The blue shift of UV emission peak (PL) from 393 (ZnO) to 386 nm and quenching of photoluminescence emission in ZnO:Mn is due to the Mn incorporation …

Materials sciencePhotoluminescenceBand gapMechanical EngineeringDopingAnalytical chemistryCondensed Matter Physicssymbols.namesakeMechanics of MaterialssymbolsGeneral Materials ScienceNanorodSelected area diffractionHigh-resolution transmission electron microscopyRaman spectroscopyWurtzite crystal structureMaterials Science and Engineering: B
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Electronic excitations in ZnWO4 and ZnxNi1−x WO4 (x = 0.1 − 0.9) using VUV synchrotron radiation

2011

The photoluminescence spectra and luminescence excitation spectra of pure microcrystalline and nano-sized ZnWO4 as well as the Zn x Ni1−x WO4 solid solutions were studied using vacuum ultraviolet (VUV) synchrotron radiation. The samples were also characterized by x-ray powder diffraction. We found that: (i) the shape of the photoluminescence band at 2.5 eV, being due to radiative electron transitions within the [WO6]6− anions, becomes modulated by the optical absorption of Ni2+ ions in the Zn x Ni1−x WO4 solid solutions; and (ii) no significant change in the excitation spectra of Zn0.9Ni0.1WO4 is observed compared to pure ZnWO4. At the same time, a shift of the excitonic bands to smaller en…

Materials sciencePhotoluminescenceQC1-999General Physics and AstronomySynchrotron radiation02 engineering and technology01 natural sciencesSpectral lineCondensed Matter::Materials Scienceznxni1−x wo4 solid solutions0103 physical sciencesluminescencePhotoluminescence excitationelectronic excitations010302 applied physicsPhysicsznwo4021001 nanoscience & nanotechnologyAtomic electron transitionvuv spectroscopyAtomic physics0210 nano-technologyLuminescenceExcitationPowder diffractiontungstatesOpen Physics
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Growth, structural and optical properties of GaN/AlN and GaN/GaInN nanowire heterostructures

2012

Abstract After discussing the GaN NW nucleation issue, we will present the structural properties of axial and radial (i.e. core/shell) GaN/AlN NW heterostructures and adress the issue of critical thickness during the growth of such heterostructures. Next, we will present the growth of InGaN NWs on a GaN NW base. It will be shown that the morphology and structural properties of the InGaN NW sections depend on the In content: for high In content a flat top is observed and plastic relaxation is occuring, with mismatch dislocations formed at the InGaN/GaN interface. By contrast, for In content below 25% InGaN NWs exhibit a pencil-like shape assigned to a purely elastic strain relaxation process…

Materials sciencePhotoluminescencebusiness.industryRelaxation (NMR)NucleationNanowireShell (structure)HeterojunctionPhysics and Astronomy(all)Xrays diffractionsymbols.namesakenanowiresmolecular beam epitaxyRaman spectroscopysymbolsIII nitride wide gap semiconductorsOptoelectronicsphotoluminescencebusinessRaman spectroscopyhigh resolution electron microscopyMolecular beam epitaxyPhysics Procedia
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Structural Characterization of Organics Using Manual and Automated Electron Diffraction

2010

In the last decade the importance of transmission electron microscopic studies has become increasingly important with respect to the characterization of organic materials, ranging from small organic molecules to polymers and biological macromolecules. This review will focus on the use of transmission electron microscope to perform electron crystallography experiments, detailing the approaches in acquiring electron crystallographic data. The traditional selected area approach and the recently developed method of automated diffraction tomography (ADT) will be discussed with special attention paid to the handling of electron beam sensitive organic materials.

Materials sciencePolymers and PlasticsRenewable Energy Sustainability and the EnvironmentElectron crystallographyBiomedical EngineeringCrystallographic dataNanotechnologyGeneral ChemistryElectronautomated data acquisition; electron diffraction; simulation methods; structure determinationsimulation methodsautomated data acquisitionstructure determinationElectronic Optical and Magnetic MaterialsCharacterization (materials science)Diffraction tomographyElectron diffractionTransmission electron microscopyMaterials ChemistryEnergy filtered transmission electron microscopyelectron diffractionElectrical and Electronic Engineering
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Strain mapping near a triple junction in strained Ni-based alloy using EBSD and biaxial nanogauges

2011

A key element for analyzing the crack initiation in strained polycrystalline alloys is the local quantification of the surface strain distribution according to the grain texture. Using electron backscattered diffraction, the local microstructure was determined to both localize a triple junction and deduce the local Schmid factors. Kernel average misorientation (KAM) was also used to map the areas of defect concentration. The maximum principal strain and the in-plane shear strain were quantified using the biaxial nanogauge. Distortions of the array of nanodots used as spot markers were analyzed near the triple junction. The crystallographic orientation and the surface strain were then invest…

Materials sciencePolymers and PlasticsStrain (chemistry)Triple junctionMetals and AlloysElectronic Optical and Magnetic MaterialsCrystallographyCeramics and CompositesShear stressGrain boundaryTexture (crystalline)CrystalliteDeformation (engineering)Composite materialElectron backscatter diffractionActa Materialia
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k-resolved electronic properties of ternary heavy fermion systems

1998

Materials scienceReflection high-energy electron diffractionCondensed matter physicsHeavy fermionStrongly correlated materialTernary operationElectron spectroscopyElectronic properties
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Total-scattering pair-distribution function of organic material from powder electron diffraction data.

2014

AbstractThis paper shows that pair-distribution function (PDF) analyses can be carried out on organic and organometallic compounds from powder electron diffraction data. Different experimental setups are demonstrated, including selected area electron diffraction and nanodiffraction in transmission electron microscopy or nanodiffraction in scanning transmission electron microscopy modes. The methods were demonstrated on organometallic complexes (chlorinated and unchlorinated copper phthalocyanine) and on purely organic compounds (quinacridone). The PDF curves from powder electron diffraction data, called ePDF, are in good agreement with PDF curves determined from X-ray powder data demonstrat…

Materials scienceReflection high-energy electron diffractionElectron diffractionGas electron diffractionScanning transmission electron microscopyAnalytical chemistryEnergy filtered transmission electron microscopySelected area diffractionInstrumentationPowder diffractionElectron backscatter diffractionMicroscopy and microanalysis : the official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada
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Structure characterization of hard materials by precession electron diffraction and automatic diffraction tomography: 6H-SiC semiconductor and Ni1+xT…

2012

Using a combination of automated diffraction tomography and precession electron diffraction techniques, quasi-kinematical electron diffraction data sets were collected from intermetallic Ni1+xTe1 embedded nanodomains and ion-thinned specimens of 6H–SiC semiconductor. Cell parameters and space groups were found automatically from the reconstructed 3D diffraction volume. The extracted intensities were used for fast ab initio structure determination by direct methods.

Materials scienceReflection high-energy electron diffractionGas electron diffractionbusiness.industryPhysics::OpticsCondensed Matter PhysicsMolecular physicsElectronic Optical and Magnetic MaterialsDiffraction tomographyCondensed Matter::Materials ScienceOpticsElectron diffractionMaterials ChemistryPrecession electron diffractionElectrical and Electronic EngineeringSelected area diffractionbusinessPowder diffractionElectron backscatter diffraction
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Structure analysis of side chain liquid crystal polymer films by means of electron microscopy

1987

Abstract Using the combined techniques of electron diffraction, bright and dark field electron microscopy as well as light microscopy, it has been possible to obtain detailed structural information about the arrangement of the smectic layers in a polymethacrylate side chain liquid crystal polymer with a biphenylester as the mesogenic group.

Materials scienceReflection high-energy electron diffractionbusiness.industryPolymer characterizationCryo-electron microscopyGeneral ChemistryCondensed Matter PhysicsDark field microscopyCondensed Matter::Soft Condensed MatterCrystallographyOpticsElectron diffractionLiquid crystalSide chainEnergy filtered transmission electron microscopyGeneral Materials SciencebusinessLiquid Crystals
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Blue-luminescent organic lead bromide perovskites: highly dispersible and photostable materials

2015

The preparation of a blue-luminescent and photostable organic–inorganic hybrid perovskite with an X-ray powder diffraction spectrum consistent with a two-dimensional inorganic framework is reported. This perovskite can be produced with a high reaction yield and valuable optical properties, such as luminescence quantum yield over 20%, radiative rate constant of up to 80 × 106 s−1, and high photostability under UV light. This material remains stable as a solid, is toluene-dispersible, and can be reverted reversibly into its precursors by using dimethylformamide (DMF). Moreover, the DMF dispersion can be injected into toluene to produce a nanomaterial or be used to prepare films by spin-coatin…

Materials scienceRenewable Energy Sustainability and the EnvironmentInorganic chemistrySubstrate (chemistry)General ChemistryPhotochemistryNanomaterialschemistry.chemical_compoundReaction rate constantchemistryDimethylformamideGeneral Materials ScienceDispersion (chemistry)LuminescencePowder diffractionPerovskite (structure)Journal of Materials Chemistry A
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