Search results for "electric properties"

showing 10 items of 34 documents

Effects of Mn doping on dielectric properties of ferroelectric relaxor PLZT ceramics

2017

This work has been supported by Latvian state research program IMIS2 .

FerroelectricsMaterials scienceAnalytical chemistryPLZTGeneral Physics and Astronomychemistry.chemical_elementNanotechnology02 engineering and technologyDielectric01 natural sciencesOxygenIonsymbols.namesake0103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]Point defectsGeneral Materials ScienceCeramicDebye010302 applied physicsRelaxation (NMR)021001 nanoscience & nanotechnologyCrystallographic defectDipolechemistryDielectric propertiesvisual_artvisual_art.visual_art_mediumsymbolsImpurities in perovskites0210 nano-technologyMn impurityCurrent Applied Physics
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Molecular structure and electric properties of N -methyl- N -nitroaniline and its derivatives

2001

A comparative study of the molecular structure of N-methyl-N-nitroaniline and its derivatives is carried out employing the Kerr effect and dipole moments methods in combination with the crystallographic analysis. The obtained experimental structural data agree with the quantum-chemical calculations by the B3LYP/6-31G p and MP2/3-21G p methods. The measurement and calculation results are used to draw conclusions about the mutual interaction and role of various substituents to the Nmethyl-N-nitroaniline molecule. q 2001 Elsevier Science B.V. All rights reserved.

Inorganic ChemistryDipoleKerr effectKerr constantChemistryComputational chemistryOrganic ChemistryElectric propertiesPhysical chemistryMoleculeSpectroscopyAnalytical ChemistryNitroanilineJournal of Molecular Structure
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Feasible glass‐melting process assisted by microwaves

2019

[EN] The advantages of microwave (MW) energy processing have been verified in the sintering of a ceramic frit at a pre-industrial scale. The challenge of achieving high temperature using MW energy at such dimensions was overcome and a mix of natural raw materials was heated until its fluxing point. Changes in dielectric properties of the raw materials mix were also measured in situ with the increase in temperature, being in accordance to thermal processes of a conventional heating process. The properties of the resulting ceramic frit were compared with the same frit obtained by the conventional sintering method. Both frits showed similar thermal behavior regarding DTA-TGA, heating microscop…

MW dielectric properties0209 industrial biotechnologyMaterials scienceMetallurgyTime saving02 engineering and technologyCO2 emissions021001 nanoscience & nanotechnologyTime savingCeramic glazelaw.invention020901 industrial engineering & automationCeramic fritlawScientific methodTEORIA DE LA SEÑAL Y COMUNICACIONESMW energyGlass meltingGeneral Materials Science0210 nano-technologyMicrowaveCeramic glazeInternational Journal of Applied Glass Science
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Influence of cation order on the dielectric properties of (1 – x)Pb(Sc 0:5 Nb 0:5 )O 3 -xPb(Yb 0:5 Nb 0:5 )O 3 ceramics

2020

Ceramic lead niobates and their solid solutions (1 - x)Pb(Sc0:5Nb0:5)O3 - xPb(Yb0:5Nb0:5)O3 were synthesized by solid state reactions from oxides. The structure of investigated samples was characterized by X-ray diffraction (XRD). Dielectric studies of the ceramics were performed by means of broadband dielectric spectroscopy at the temperature ranging from 600 K to 140 K. For all ceramic samples a diffuse phase transition as well as relaxor ferroelectric behavior were observed. © 2020 Barbara Garbarz-Glos et al., published by Sciendo 2020. This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Materials science5Nb0:5)O3 [Pb(Sc0]pb(sc0:5nb0:5)o3relaxor ferroelectric02 engineering and technologyDielectric01 natural sciencesNanomaterials0103 physical scienceslcsh:TA401-492General Materials ScienceCeramicComposite material010306 general physicsMechanical Engineering021001 nanoscience & nanotechnologyCondensed Matter PhysicsMechanics of MaterialsOrder (business)dielectric propertiesvisual_artvisual_art.visual_art_medium:NATURAL SCIENCES [Research Subject Categories]lcsh:Materials of engineering and construction. Mechanics of materialssolid solution0210 nano-technologyMaterials Science-Poland
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Influence of Axial Pressure on the Electrical Properties of Li0.06Na0.94NbO3 Ceramic

2011

Lead-free ceramic Li0.06Na0.94NbO3 was synthesized using a conventional solid-state processing. The single-phase perovskite structure was identified by X-ray powder diffraction technique. The values of lattice parameters of Li0.06Na0.94NbO3 are lower than those for pure NaNbO3. The EDS analysis shows the fairly homogeneous distribution of all elements throughout the grains. An axial pressure significantly influences electric properties. With increasing pressure the peak intensity in the ϵ(T) curve decreases, the peak becomes diffused and shifts to a lower temperature. The value of tanδ increases with increasing axial pressure and its local maximum shifts towards lower temperatures.

Materials scienceAxial pressureCondensed Matter PhysicsMicrostructureHomogeneous distributionLower temperatureElectronic Optical and Magnetic MaterialsCrystallographyControl and Systems EngineeringLattice (order)visual_artMaterials ChemistryCeramics and Compositesvisual_art.visual_art_mediumElectric propertiesCeramicElectrical and Electronic EngineeringComposite materialPowder diffractionIntegrated Ferroelectrics
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Enhanced thermoelectric properties of lightly Nb doped SrTiO3 thin films

2021

Novel thermoelectric materials developed for operation at room temperature must have similar or better performance along with being as ecofriendly as those commercially used, e.g., BiTe, in terms of their toxicity and cost. In this work, we present an in-depth study of the thermoelectric properties of epitaxial Nb-doped strontium titanate (SrTiNbO) thin films as a function of (i) doping concentration, (ii) film thickness and (iii) substrate type. The excellent crystal quality was confirmed by high resolution transmission electron microscopy and X-ray diffraction analysis. The thermoelectric properties were measured by the three-omega method (thermal conductivity) and van der Pauw method (el…

Materials scienceBioengineering02 engineering and technology010402 general chemistryMaximum power factor01 natural scienceschemistry.chemical_compoundVan der Pauw methodSeebeck coefficientThermoelectric effectFigure of meritGeneral Materials ScienceHigh-resolution transmission electron microscopyDoping concentrationLanthanum Strontium AluminateThermo-Electric materialsbusiness.industryDopingGeneral EngineeringThermoelectric figure of meritGeneral Chemistry021001 nanoscience & nanotechnologyThermoelectric materialsAtomic and Molecular Physics and Optics0104 chemical scienceschemistryThermoelectric propertiesStrontium titanateOptoelectronicsDifferent substratesSeebeck coefficient measurement0210 nano-technologybusiness
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The Ba2LnFeNb4O15 “tetragonal tungsten bronze”: Towards RT composite multiferroics

2009

Several Niobium oxides of formula Ba2LnFeNb4O15 (Ln = La, Pr, Nd, Sm, Eu, Gd) with the Tetragonal Tungsten Bronze (TTB) structure have been synthesised by conventional solid-state methods. The Neodymium, Samarium and Europium compounds are ferroelectric with Curie temperature ranging from 320 to 440K. The Praseodymium and Gadolinium compounds behave as relaxors below 170 and 300 K respectively. The Praseodymium, Neodymium, Samarium, Europium and Gadolinium compounds exhibit magnetic hysteresis loops at room temperature originating from traces of a barium ferrite secondary phase. The presence of both ferroelectric and magnetic hysteresis loops at room temperature allows considering these mat…

Materials scienceCrystal-chemistryPraseodymium[ PHYS.COND.CM-MS ] Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]FOS: Physical scienceschemistry.chemical_elementMineralogy02 engineering and technology01 natural scienceschemistry.chemical_compoundTetragonal crystal system0103 physical sciencesMagnetic propertiesGeneral Materials ScienceMultiferroicsBarium ferriteTetragonal tungsten bronzeComposites010302 applied physicsCondensed Matter - Materials ScienceMultiferroic propertiesMaterials Science (cond-mat.mtrl-sci)General Chemistry021001 nanoscience & nanotechnologyCondensed Matter PhysicsFerroelectricitySamariumCrystallographychemistryDielectric properties[PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]Curie temperature0210 nano-technologyEuropiumSolid state Chemistry
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Optimization of anodizing process of tantalum for Ta2O5-based capacitors

2020

Anodic oxides were grown to 50 V on Ta in several organic ions containing anodizing baths. Their properties were compared with anodic Ta oxide film grown to the same formation voltage in 0.1 M NaOH. Anodizing process carried out in sodium citrate led to the growth of the anodic oxide with the best blocking properties whilst, when Ta is anodized in sodium adipate, a significant part of the circulated charge is wasted in side reactions, such as oxygen evolution. Photoelectrochemical measurements showed the presence of optical transitions at energy lower than the band gap for the anodic films grown in citrate and tartrate electrolytes, attributed to localized electronic states located close to…

Materials scienceDifferential capacitanceBand gapAnodizingInorganic chemistryOxideTantalumSodium adipatechemistry.chemical_element02 engineering and technologyElectrolyte010402 general chemistry021001 nanoscience & nanotechnologyCondensed Matter PhysicsElectrochemistry01 natural sciences0104 chemical scienceschemistry.chemical_compoundSettore ING-IND/23 - Chimica Fisica ApplicatachemistryAnodizing Band gap Capacitor Dielectric properties Organic ions TantalumElectrochemistryGeneral Materials ScienceElectrical and Electronic Engineering0210 nano-technology
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Dielectric Properties of Al-Nb Amorphous Mixed Oxides

2013

Submitted by Paula Candeias (paula.candeias@lneg.pt) on 2014-02-25T11:53:22Z No. of bitstreams: 1 ECSJournalSolidStateScienceTechnology_N205.pdf: 205716 bytes, checksum: 7b6ac8703b59f9bc280a9cb4082ee0f2 (MD5) Approved for entry into archive by Paula Candeias (paula.candeias@lneg.pt) on 2014-02-25T11:53:42Z (GMT) No. of bitstreams: 1 ECSJournalSolidStateScienceTechnology_N205.pdf: 205716 bytes, checksum: 7b6ac8703b59f9bc280a9cb4082ee0f2 (MD5) Approved for entry into archive by Paula Candeias (paula.candeias@lneg.pt) on 2014-02-25T11:54:01Z (GMT) No. of bitstreams: 1 ECSJournalSolidStateScienceTechnology_N205.pdf: 205716 bytes, checksum: 7b6ac8703b59f9bc280a9cb4082ee0f2 (MD5) Made available i…

Materials scienceInorganic chemistryDielectric Propertieschemistry.chemical_elementDielectricElectronic Optical and Magnetic MaterialsAmorphous solidSettore ING-IND/23 - Chimica Fisica ApplicataMixed OxideschemistryChemical engineeringAluminiumAluminiumDielectric Properties Al-Nb amorphous mixed oxidesECS Journal of Solid State Science and Technology
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Enhanced photorefractive properties of Bi-doped Sn2P2S6

2008

International audience; Enhanced photorefractive properties of tin hypothiodiphosphate (Sn2P2S6) crystals as a result of Bi doping are presented. These new crystals were obtained by the vapor-transport technique using stoichiometric Sn2P2S6 composition with an additional amount of Bi up to 0.5 mol. % in the initial compound. The bandgap edges of the obtained crystals are located at ~750 nm and shift toward the red wavelengths with increasing Bi concentration. Sn2P2S6:Bi crystals are found to exhibit larger two-beam coupling gain coefficients (up to 17 cm−1 at a wavelength of 854 nm) as compared to (i) pure Sn2P2S6 (2.5 cm−1 at 854 nm), (ii) Sn2P2S6 crystals modified by the growth conditions…

Materials sciencePhotorefractive materialsNonlinear opticsBand gapAnalytical chemistrychemistry.chemical_element02 engineering and technologyDielectricNon linear material01 natural sciencesTernary compoundsDoped materials010309 opticsOptics0103 physical sciencesTin HypothiophosphatesOptical propertiesbusiness.industryDopingTwo wave mixingStatistical and Nonlinear PhysicsPhotorefractive effect021001 nanoscience & nanotechnologyPhotorefractive effectAtomic and Molecular Physics and OpticsBismuth additionsLight intensityWavelengthchemistryEnergy transferDielectric propertiesOptical materials0210 nano-technologybusinessTinRefractive index
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