Search results for "tungstate"

showing 10 items of 41 documents

Analysis of extended x-ray absorption fine structure data from copper tungstate by the reverse Monte Carlo method

2014

The static disorder and lattice dynamics of crystalline materials can be efficiently studied using reverse Monte Carlo simulations of extended x-ray absorption fine structure spectra (EXAFS). In this work we demonstrate the potentiality of this method on an example of copper tungstate CuWO4. The simultaneous analysis of the Cu K and W L3 edges EXAFS spectra allowed us to follow local structure distortion as a function of temperature.

Materials scienceExtended X-ray absorption fine structurechemistry.chemical_elementReverse Monte CarloCondensed Matter PhysicsCopperMolecular physicsAtomic and Molecular Physics and OpticsSpectral lineCondensed Matter::Materials Sciencechemistry.chemical_compoundTungstatechemistrySurface-extended X-ray absorption fine structureDistortionddc:530Absorption (electromagnetic radiation)Mathematical PhysicsPhysica Scripta
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Luminescence and Transient Optical Absorption in CdWO<sub>4</sub>

1997

Materials scienceMechanical EngineeringAnalytical chemistryScintillatorCondensed Matter Physicschemistry.chemical_compoundchemistryMechanics of MaterialsUltrafast laser spectroscopyCadmium tungstateGeneral Materials ScienceTransient (oscillation)LuminescenceAbsorption (electromagnetic radiation)Materials Science Forum
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Particle size and morphology control of the negative thermal expansion material cubic zirconium tungstate

2009

Cubic ZrW2O8 is a negative thermal expansion (NTE) material that is of interest as filler in controlled thermal expansion composites. It is easily accessible from a hydrated precursor, ZrW2O7(OH)2·2H2O, which can be obtained by hydrothermal synthesis. Different reaction conditions were investigated to gain control over the morphology, and to minimize the particle size. Optimized procedures resulted in rod-shaped particles with widths of 10–30 nm and lengths of 200–500 nm, which showed little agglomeration. The particle size and morphology of the precursor are preserved during conversion to the NTE phase at 600–650 °C.

Materials scienceMorphology (linguistics)MineralogyZirconium tungstateGeneral ChemistryMicrostructureThermal expansionchemistry.chemical_compoundChemical engineeringNegative thermal expansionchemistryPhase (matter)Materials ChemistryHydrothermal synthesisParticle sizeJournal of Materials Chemistry
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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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X-ray absorption and Raman spectroscopy studies of tungstates solid solutions ZncNi1-cWO4 (c=0.0-1.0)

2020

G.B. acknowledges the financial support provided by the State Education Development Agency for project No. 1.1.1.2/VIAA/3/19/444 (agreement No. 1.1.1.2/16/I/001) realized at the Institute of Solid State Physics, University of Latvia. A.K. and A.K. would like to thank the support of the Latvian Council of Science project No. lzp-2019/1-0071. Institute of Solid State Physics, University of Latvia as the Center of Excellence has received funding from the European Union’s Horizon 2020 Framework Programme H2020-WIDESPREAD-01-2016-2017-TeamingPhase2 under grant agreement No. 739508, project CAMART2.

Materials sciencePhysics and Astronomy (miscellaneous)Absorption spectroscopyAnalytical chemistryFOS: Physical sciencesGeneral Physics and AstronomyZnWO47. Clean energy01 natural sciencessymbols.namesakeNiWO40103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]010306 general physicsX-ray ab- sorption spectroscopy010302 applied physicsX-ray absorption spectroscopyCondensed Matter - Materials ScienceX-rayMaterials Science (cond-mat.mtrl-sci)Condensed Matter - Other Condensed MatterMicrocrystallineOctahedronsolid solutionsRaman spectroscopysymbolsAbsorption (chemistry)Raman spectroscopyOther Condensed Matter (cond-mat.other)Solid solutiontungstates
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Effects of pulse current mode on plasma electrolytic oxidation of 7075 Al in Na2WO4 containing solution: From unipolar to soft-sparking regime

2018

Abstract Plasma electrolytic oxidation coatings were produced on 7075 Al alloy in a silicate based solution containing sodium tungstate using unipolar, usual bipolar and soft-sparking bipolar pulsed current regimes. X-ray diffraction proved that the coatings contain gamma alumina and metallic tungsten. EDS results showed that the tungsten content decreases with increasing the negative half cycle. Scanning electron microscopy showed that the pancake and volcano-like were dominant morphologies for the coatings produced by the unipolar and bipolar current regimes, respectively. Under unipolar current regime, a band of large pores is observed at the metal/coating interface, while they became di…

Materials scienceScanning electron microscopeGeneral Chemical EngineeringPopulationAlloyCorrosion resistancechemistry.chemical_element02 engineering and technologyengineering.materialTungsten010402 general chemistry01 natural sciencesCorrosionchemistry.chemical_compoundPulsed current regimeSodium tungstateCoatingmental disordersElectrochemistryChemical Engineering (all)Sodium tungstateComposite materialeducationeducation.field_of_studyPEO coatingPlasma electrolytic oxidationequipment and supplies021001 nanoscience & nanotechnology0104 chemical sciencesSettore ING-IND/23 - Chimica Fisica Applicatachemistryengineering7075 aluminum alloy0210 nano-technologyElectrochimica Acta
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Confocal spectromicroscopy of amorphous and nanocrystalline tungsten oxide films

2007

A Raman confocal spectromicroscopic system was used to study in situ phase composition and surface morphology in amorphous and nanocrystalline tungsten oxide and tungstate thin films, prepared on silicon and glass substrates by dc magnetron co-sputtering technique. The possible use of these films for the phase-change optical recording was demonstrated using 442 nm He–Cd laser with a variable power of up to 50 mW. The formation of nanocrystalline tungsten trioxide or tungstate phases was observed under the laser irradiation. These nanocrystalline phases show relatively strong Raman activity, which can be used for information reading purposes. A multilayer structure composed of several tungst…

Materials scienceSiliconbusiness.industryAnalytical chemistrychemistry.chemical_elementCondensed Matter PhysicsTungsten trioxideNanocrystalline materialElectronic Optical and Magnetic MaterialsAmorphous solidchemistry.chemical_compoundsymbols.namesakechemistryTungstateMaterials ChemistryCeramics and CompositessymbolsOptoelectronicsThin filmRaman spectroscopybusinessRaman scatteringJournal of Non-Crystalline Solids
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Local structure of nanosized tungstates revealed by evolutionary algorithm

2015

Nanostructured tungstates, such as CoWO4 and CuWO4, are very promising catalytic materials, particularly for photocatalytic oxidation of water. The high catalytic activity of tungstate nanoparticles partially is a result of their extremely small sizes, and, consequently, high surface-to-volume ratio. Therefore their properties depend strongly on the atomic structure, which differ significantly from that of the bulk material. X-ray absorption spectroscopy is a powerful technique to address the challenging problem of the local structure determination in nanomaterials. In order to fully exploit the structural information contained in X-ray absorption spectra, in this study we employ a novel ev…

NanostructureMaterials scienceAbsorption spectroscopyExtended X-ray absorption fine structureNanoparticleSurfaces and InterfacesCondensed Matter PhysicsSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsNanomaterialschemistry.chemical_compoundCrystallographyTungstatechemistryTransition metalChemical physicsMaterials ChemistryElectrical and Electronic EngineeringAbsorption (electromagnetic radiation)physica status solidi (a)
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Asymmetric tungsten oxide nanobrushes via oriented attachment and Ostwald ripening

2011

Tungsten oxide nanobrushes were synthesized using a solvothermal approach that lead to self-branching in the presence of citric acid and hexadecylamine as surfactants. Our synthetic approach yielded branched nanorods of tungsten oxide in a single synthetic step. Based on our results, we propose a phenomenological pathway for the formation, branching, and assembly of these tungsten oxide brushes. The formation of tungsten oxide brushes proceeds by thermal decomposition of ammonium tungstate in the presence of citric acid and hexadecylamine. The pale blue powder obtained after solvothermal reaction was analyzed by X-ray diffraction (XRD), transmission electron microscopy (TEM) and high-resolu…

Ostwald ripeningNanostructureMaterials scienceThermal decompositionInorganic chemistryGeneral Chemistryequipment and suppliesCondensed Matter Physicschemistry.chemical_compoundsymbols.namesakeField electron emissionTungstatechemistryTransmission electron microscopysymbolsGeneral Materials ScienceNanorodHigh-resolution transmission electron microscopy
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Quasi-hydrostatic X-ray powder diffraction study of the low- and high-pressure phases of CaWO4 up to 28 GPa

2014

We have studied CaWO4 under compression using Ne as pressure-transmitting medium at room temperature by means of synchrotron X-ray powder diffraction. We have found that CaWO4 beyond 8.8 GPa transforms from its low-pressure tetragonal structure (scheelite) into a monoclinic structure (fergusonite). The high-pressure phase remains stable up to 28 GPa and the low-pressure phase is totally recovered after full decompression. The pressure dependence of the unit-cell parameters, as well as the pressure volume equation of state, has been determined for both phases. Compared with previous studies, we found in our quasi-hydrostatic experiments a different behavior for the unit-cell parameters of th…

Phase transitionEquation of stateMaterials scienceScheeliteThermodynamicsGeneral ChemistryCondensed Matter PhysicsFergusoniteX-ray diffractionHigh pressureTetragonal crystal systemCrystallographyFISICA APLICADAPhase (matter)X-ray crystallographyCalcium tungstateGeneral Materials SciencePowder diffractionPhase transitionMonoclinic crystal systemSolid State Sciences
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