Search results for "Extended X ray absorption fine structure spectroscopy"

showing 3 items of 3 documents

Indium Doping in Barium Cerate: the Relation between Local Symmetry and the Formation and Mobility of Protonic Defects

2007

The solid solution series Ba(In,Ce)O3-ä has been investigated with respect to structure, formation, and mobility of protonic defects. Compared to the limited solubility of Y2O3 in BaCeO3 and BaZrO3, the complete solubility of In2O3 is suggested to reflect a relation between absolute hardness of the dopant and the ease of insertion into the hosting lattices. Extended X-ray absorption fine structure (EXAFS) was used to probe the local environment of In3+ in barium cerate: in the surroundings of the dopant, the orthorhombic structure is strongly modified, resulting in an increase of local symmetry. The InO6 octahedra are very regular, and there is no indication for any defect clustering. This …

Materials scienceDopantExtended X-ray absorption fine structureGeneral Chemical EngineeringInorganic chemistrychemistry.chemical_elementExtended X ray absorption fine structure spectroscopyBariumGeneral ChemistryCrystal defectCrystal symmetrychemistryOctahedronSolubilityChemical physicsLocal symmetryBarium compoundMaterials ChemistryOrthorhombic crystal systemSolubilityDissolution
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Exploring the catalytic performance of a series of bimetallic MIL-100(Fe, Ni) MOFs

2019

[EN] A series of mixed-metal Fe-III/Ni-II metal-organic frameworks (MOFs) of the MIL-100 type containing different metal ratios have been synthesized de novo, following an approach that requires tuning of the Fe-III/Ni-II reactivity. The resulting heterometallic MIL-100(Fe, Ni) materials maintain thermal, chemical and structural stability with respect to the parent MIL-100(Fe) MOF as can be deduced from various techniques. The nature and the oxidation state of the accessible metal cations have been evaluated by in situ infrared spectroscopy and extended X-ray absorption fine structure measurements. The obtained mixed-metal MOFs and the parent material have been evaluated as heterogeneous ca…

Renewable Energy Sustainability and the EnvironmentfungiAcid-catalyzed reactionsExtended X ray absorption fine structure spectroscopy02 engineering and technologyGeneral Chemistry[CHIM.CATA]Chemical Sciences/Catalysis021001 nanoscience & nanotechnology7. Clean energyHeterogeneous catalystMetalorganic frameworks (MOFs)QUIMICA ORGANICAPolitical scienceCatalyst activityGeneral Materials ScienceChristian ministryEuropean commission0210 nano-technologyHumanitiesComputingMilieux_MISCELLANEOUS
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X-ray Spectroscopy of (Ba,Sr,La)(Fe,Zn,Y)O3-δIdentifies Structural and Electronic Features Favoring Proton Uptake

2020

Mixed protonic–electronic conducting oxides are key functional materials for protonic ceramic fuel cells. Here, (Ba,Sr,La)(Fe,Zn,Y)O3−δ perovskites are comprehensively investigated by X-ray spectroscopy (in oxidized and reduced states). Extended X-ray absorption fine structure shows that Zn,Y doping strongly increases the tendency for Fe–O–Fe buckling. X-ray absorption near-edge spectroscopy at the Fe K-edge and X-ray Raman scattering at the O K edge demonstrate that both iron and oxygen states are involved when the samples are oxidized, and for the Zn,Y doped materials, the hole transfer from iron to oxygen is less pronounced. This can be correlated with the observation that these material…

X-ray spectroscopyMaterials scienceProtonGeneral Chemical Engineeringchemistry.chemical_element02 engineering and technologyGeneral Chemistry010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesOxygen0104 chemical sciencesExtended X ray absorption fine structure spectroscopy Functional materials Iron OxygenPerovskite Protonic ceramic fuel cells (PCFC) X ray absorptionCrystallographychemistryvisual_artMaterials Chemistryvisual_art.visual_art_mediumFuel cellsCeramicAbsorption (chemistry)0210 nano-technology
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