Search results for "doping"

showing 10 items of 801 documents

Dopant-Host oxide interactions and proton mobility in Gd:BaCeO3

2009

The local structure of Gd:BaCeO3 at different dopant concentrations (2-20%) was studied by X-ray absorption spectroscopy. The EXAFS analysis shows that the environment of the regular Ba2+ and Ce4+ cations is to a limited extent affected by doping. The local structure of gadolinium shows an expansion of the first coordination shell of oxygens, consistent with the ionic radius of Gd3+, but a contraction of the next neighboring shells of cations. In particular, the Ba2+ second neighbors get closer to the dopant, which can be originated by the effective negative charge sharply localized on the dopant. Comparison between EXAFS data of dry and hydrated compounds confirms this interpretation, show…

Ionic radiusDopantAbsorption spectroscopyProtonExtended X-ray absorption fine structureGeneral Chemical EngineeringGadoliniumDopingAnalytical chemistrychemistry.chemical_elementEXAFS proton conductor perovskite barium cerateGeneral ChemistryYttriumCrystallographychemistryMaterials Chemistry
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Lanthanide molecular oxohydroxides: Synthesis and characterisation of [Y4(μ4-O)(μ-OEt)2(μ,η2-AAA)2(η2-AAA)3]2(μ3-OH)4(μ3-OEt)2 (HAAA = allylacetatoac…

2007

International audience; The reaction between Y5O(OPri)13 and allylacetatoacetate or 2-(methacryloyloxy)ethyl acetatoacetate in 1:5 stoichiometry afforded octanuclear oxohydroxo species. Structural characterization was achieved for the allylacetatoacetate derivative homo and copolymerisation reactions with styrene were evaluated for doping of polystyrene. Hydoxo species, Y4(OH)2(AAA)10, where also obtained by reacting Y[N(SiMe3)]3 and HAAA.

LanthanideInorganic chemistrychemistry.chemical_element02 engineering and technologyAlkoxides010402 general chemistry01 natural sciences"Polymerizable ligands"StyreneInorganic Chemistrychemistry.chemical_compoundPolymer chemistryMaterials ChemistryYttriumPhysical and Theoretical ChemistryPolymerizable ligands"Alkoxides"Doping"X-ray structure"Yttrium[CHIM.CATA]Chemical Sciences/Catalysis021001 nanoscience & nanotechnology[SDE.ES]Environmental Sciences/Environmental and Society0104 chemical scienceschemistryPolystyreneX-ray structure0210 nano-technology"Yttrium"Derivative (chemistry)Stoichiometry
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MICRO- AND NANO-STRUCTURES IN SINGLE CRYSTALS OF LITHIUM NIOBATE CONTAINING LANTHANIDE ADMIXTURES

2008

ABSTRACT Micro-size domain structures in lithium niobate single crystals containing lanthanide (Gd, Tm, Sm, Lu) admixture, grown under stationary and non-stationary conditions are studied by efficient and flexible Thixomet® image analyser. Regular fractal-type domain structures observed along the three Y-axes of the hexagonal crystallographic set-up are assigned to pinning of the domain walls at defects created under conditions of imbalanced crystallization of the doped melt. Characteristic types of domains have been found analysing the configurations of domains on optical and atomic force microscopic images of surfaces of different crystallographic orientations.

LanthanideMaterials scienceHexagonal crystal systemLithium niobateDopingCondensed Matter PhysicsElectronic Optical and Magnetic Materialslaw.inventionCrystallographychemistry.chemical_compoundchemistryControl and Systems EngineeringlawNano-Materials ChemistryCeramics and CompositesElectrical and Electronic EngineeringCrystallizationIntegrated Ferroelectrics
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Eu3+ ion distribution in oxyfluoride glass nanocomposites

2019

The authors are grateful to Dr. Andris Fedotovs for photography of the samples. This research is funded by the Latvian Council of Science, project “Novel transparent nanocomposite oxyfluoride materials for optical applications”, project No. LZP-2018/1-0335.

LanthanideMaterials scienceOptical spectroscopychemistry.chemical_element02 engineering and technology01 natural scienceslaw.inventionIonParamagnetismLattice constantlaw0103 physical sciences:NATURAL SCIENCES:Physics [Research Subject Categories]Materials ChemistryTransparent oxyfluoride glass ceramicsElectron paramagnetic resonance010302 applied physicsDoping021001 nanoscience & nanotechnologyCondensed Matter PhysicsX-ray diffractionElectronic Optical and Magnetic MaterialschemistryActivator distributionX-ray crystallographyCeramics and CompositesPhysical chemistryElectron paramagnetic resonance0210 nano-technologyEuropiumJournal of Non-Crystalline Solids
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Lanthanide-doped Y3Ga5O12 garnets for nanoheating and nanothermometry in the first biological window

2018

Abstract Absorption and luminescence spectra in the first biological window of Nd3+ single-doped and Er3+-Yb3+ co-doped Y3Ga5O12 nano-garnets have been studied to evaluate their potential use as simultaneous optical nanoheaters and nanothermometers in biomedicine. Nd3+-doped nano-garnets uses the 808 nm laser radiation, resonant with the largest absorption peak of the 4I9/2 → 4F5/2 transition, for both heating the nanoparticle and populating the 4F3/2 emitting level. Changes in the relative intensities of different emission peaks between Stark levels of the 4F3/2 (R1,2)→4I9/2 (Z1-5) transition can be directly related to the temperature of the nano-garnet. On the other hand, the Yb3+/Er3+com…

LanthanideMaterials scienceOrganic ChemistryDopingNanoparticle02 engineering and technologyRadiation010402 general chemistry021001 nanoscience & nanotechnologyLaser01 natural sciencesAtomic and Molecular Physics and OpticsPhoton upconversion0104 chemical sciencesElectronic Optical and Magnetic MaterialsIonlaw.inventionInorganic ChemistrylawElectrical and Electronic EngineeringPhysical and Theoretical ChemistryAtomic physics0210 nano-technologyAbsorption (electromagnetic radiation)SpectroscopyOptical Materials
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Influence of Ce codoping and H2 pre-loading on Er/Yb-doped fiber: Radiation response characterized by Confocal Micro-Luminescence

2011

International audience; Confocal microscopy luminescence measurements were applied to study the X-ray radiation response of Er/Yb-doped optical fibers in connection with H2 pre-loading and with the addition of another lanthanide element (Cerium) in the core composition. Laser excitations at 488 nm and 325 nm allow deriving the emission and absorption pattern of Er3+, the latter derived from the dips appearing in a wide luminescence band related to defects in silica. We found that the luminescence spectrum of the X-irradiated Er/Yb-doped core fiber evidences an increase in the emission intensity around 520 and 660 nm; in contrast, no changes are induced by radiation neither after H2 pre-load…

LanthanideMaterials sciencePhotoluminescenceOptical fiberOptica fiber; Er/Yb doping; Ce doping; confocal micro-luminescencechemistry.chemical_elementlaw.inventionOpticsMicro-luminescencelawRare earthMaterials ChemistryEr/Yb dopingFiberAbsorption (electromagnetic radiation)Ce dopingconfocal micro-luminescence[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics]business.industrySilicaErbium doped fibersCondensed Matter PhysicsLaserOptica fiberElectronic Optical and Magnetic MaterialsCeriumchemistryCeramics and CompositesOptoelectronicsDefectsLuminescencebusiness
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A broadening temperature sensitivity range with a core-shell YbEr@YbNd double ratiometric optical nanothermometer.

2016

The chemical architecture of lanthanide doped core–shell up-converting nanoparticles can be engineered to purposely design the properties of luminescent nanomaterials, which are typically inaccessible to their homogeneous counterparts. Such an approach allowed to shift the up-conversion excitation wavelength from ∼980 to the more relevant ∼808 nm or enable Tb or Eu up-conversion emission, which was previously impossible to obtain or inefficient. Here, we address the issue of limited temperature sensitivity range of optical lanthanide based nano-thermometers. By covering Yb–Er co-doped core nanoparticles with the Yb–Nd co-doped shell, we have intentionally combined temperature dependent Er u…

LanthanideMaterials sciencebusiness.industryDopingAnalytical chemistryNanoparticle02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesTemperature measurement0104 chemical sciencesNanomaterialsWavelengthNanocrystalOptoelectronicsGeneral Materials Science0210 nano-technologyLuminescencebusinessNanoscale
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Doped zirconia phase and luminescence dependence on the nature of charge compensation

2017

Financial support provided by the Scientific Research Project for Students and Young Researchers Nr. SJZ2015/25 carried out at the Institute of Solid State Physics of the University of Latvia is greatly acknowledged.

LanthanideMultidisciplinaryMaterials scienceDoping02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesArticle0104 chemical sciencesIonTetragonal crystal systemNanocrystalActivator (phosphor):NATURAL SCIENCES:Physics [Research Subject Categories]Physical chemistryCubic zirconia0210 nano-technologyLuminescenceScientific Reports
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Mechanochemical synthesis of an Eu(III) complex. Preparation and Luminescence Properties of PMMA:[C42H38N5O19Eu] Hybrid Films

2015

Abstract Photoluminescent films of poly(methyl methacrylate), PMMA, doped with the complex [EuL2(H2O)2(NO3)3] were prepared, where L is the neutral ligand 2,6-bis[2-formylphenoxymethyl]pyridine (C21H17NO4). The Eu(III) complex was synthesized by classic chemosynthesis, and also through a solvent-free mechanochemical synthesis, and characterized by spectroscopy, thermal analysis (TGA and DTA), and single crystal X-ray diffraction. The mechanochemical route improves the yield for the complex, which is synthesized over times considerably shorter compared to the traditional synthesis, and through a solvent-free procedure. The photoluminescent properties of the Eu(III) complex and hybrid films P…

LanthanidePhotoluminescenceDopingAnalytical chemistryInorganic Chemistrychemistry.chemical_compoundchemistryPyridineMaterials ChemistryPhysical chemistryPhysical and Theoretical ChemistryMethyl methacrylateLuminescenceThermal analysisSingle crystalPolyhedron
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Slow magnetic fluctuations and superconductivity in fluorine-doped NdFeAsO

2015

Among the widely studied superconducting iron-pnictide compounds belonging to the Ln1111 family (with Ln a lanthanide), a systematic investigation of the crossover region between the superconducting and the antiferromagnetic phase for the Ln = Nd case has been missing. We fill this gap by focusing on the intermediate doping regime of NdFeAsO(1-x)F(x) by means of dc-magnetometry and muon-spin spectroscopy measurements. The long-range order we detect at low fluorine doping is replaced by short-range magnetic interactions at x = 0.08, where also superconductivity appears. In this case, longitudinal-field muon-spin spectroscopy experiments show clear evidence of slow magnetic fluctuations that …

Lanthanidemuon spin spectroscopyMaterials scienceFOS: Physical scienceschemistry.chemical_elementcharge dopingSuperconductivity (cond-mat.supr-con)Phase (matter)Condensed Matter::SuperconductivityPnictide superconductorElectronicinterplay magnetism and superconductivityOptical and Magnetic MaterialsSpectroscopySuperconductivityCondensed Matter Physics; Electronic Optical and Magnetic Materials SPIN RELAXATION PHASE-DIAGRAMCondensed matter physicsCondensed Matter - SuperconductivityPHASE-DIAGRAMDopingMuon spin spectroscopyCondensed Matter Physics3. Good healthElectronic Optical and Magnetic MaterialschemistryFluorineSPIN RELAXATIONCondensed Matter::Strongly Correlated ElectronsFluorine dopingPhysical Review B - Condensed Matter and Materials Physics
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