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RESEARCH PRODUCT

Long-Range and Short-Range Structure of Proton-Conducting Y:BaZrO3

Antonino MartoranaAlessandro LongoRotraut MerkleJoachim MaierFrancesco GianniciMona Shirpour

subject

DYNAMICSRAMAN-SCATTERINGMaterials scienceCrystal chemistryGeneral Chemical EngineeringYTTRIUMRAMAN-SCATTERING; LOCAL ENVIRONMENT; BARIUM CERATE; SPECTROSCOPY; YTTRIUM; BAZR0.9Y0.1O2.95; STRONTIUM; DYNAMICS; DEFECTS; OXIDESCrystal structuresymbols.namesakeSTRONTIUMMaterials ChemistryLOCAL ENVIRONMENTBAZR0.9Y0.1O2.95OXIDESSpectroscopyProton conductorSPECTROSCOPYExtended X-ray absorption fine structureDopingDEFECTSGeneral ChemistryCrystallographysymbolsRaman spectroscopyBARIUM CERATERaman scattering

description

Yttrium-doped barium zirconate (BZY) is the most promising candidate for proton-conducting ceramics and has been extensively studied in recent years. The detailed features of the crystal structure, both short-range and long-range, as well as the crystal chemistry driving the doping process, are largely unknown. We use very high resolution X-ray diffraction (HR-XRD) to resolve the crystal structure, which is very slightly tetragonally distorted in BZY, while the local environment around Zr4+ and Y3+ is probed with extended X-ray absorption fine structure (EXAFS), and the symmetry and vibrations are investigated by using Raman spectroscopy. It is found that barium zirconate shows some degree of local deviation from the cubic arystotype even if undoped, which upon substitution by the perceptibly larger Y3+, playing the role of a rigid inclusion, is further increased. This distortion is one limiting factor concerning the Y3+ solubility. The effects are correlated to the proton conduction properties of BZY.

yearjournalcountryeditionlanguage
2011-05-05Chemistry of Materials
https://doi.org/10.1021/cm200682d