Search results for "PHASE-TRANSFORMATION"

showing 3 items of 3 documents

High-pressure structural and elastic properties of Tl2O3

2014

The structural properties of Thallium (III) oxide (Tl2O3) have been studied both experimentally and theoretically under compression at room temperature. X-ray powder diffraction measurements up to 37.7 GPa have been complemented with ab initio total-energy calculations. The equation of state of Tl2O3 has been determined and compared to related compounds. It has been found experimentally that Tl2O3 remains in its initial cubic bixbyite-type structure up to 22.0 GPa. At this pressure, the onset of amorphization is observed, being the sample fully amorphous at 25.2 GPa. The sample retains the amorphous state after pressure release. To understand the pressure-induced amorphization process, we h…

Equation of statePhase transitionMaterials scienceAb initioOxideGeneral Physics and AstronomyThermodynamicsFOS: Physical sciencesInitio molecular-dynamicsHigh-temperatureInduced amorphizationchemistry.chemical_compoundX-Ray DiffractionTotal-Energy calculationsCondensed Matter - Materials ScienceSingle crystalMaterials Science (cond-mat.mtrl-sci)Compression (physics)Crystal thallic oxideAmorphous solidchemistryAugmented-wave methodFISICA APLICADAElectrical-conductionOrthorhombic crystal systemPhase-transformationPowder diffraction
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Stability and nature of the volume collapse of ε-Fe2O3 under extreme conditions

2018

Iron oxides are among the major constituents of the deep Earth’s interior. Among them, the epsilon phase of Fe2O3 is one of the less studied polymorphs and there is a lack of information about its structural, electronic and magnetic transformations at extreme conditions. Here we report the precise determination of its equation of state and a deep analysis of the evolution of the polyhedral units under compression, thanks to the agreement between our experiments and ab-initio simulations. Our results indicate that this material, with remarkable magnetic properties, is stable at pressures up to 27 GPa. Above 27 GPa, a volume collapse has been observed and ascribed to a change of the local env…

PHASE-TRANSFORMATIONEquation of stateMaterials scienceXRDScienceSILICATEIron oxideIRON(III) OXIDEGeneral Physics and Astronomy02 engineering and technology01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyMantle (geology)ArticlePhysics::Geophysicschemistry.chemical_compoundCondensed Matter::Materials ScienceX-RAY-DIFFRACTIONMAGNETIC PHASESpin crossoverPhase (matter)synchrotron0103 physical sciences[CHIM]Chemical SciencesCRYSTAL-STRUCTUREe-Fe2O3010306 general physicslcsh:ScienceMultidisciplinaryMössbauer spectroscopyIRONQIron(III) oxideSPIN-CROSSOVERGeneral Chemistry021001 nanoscience & nanotechnologySilicateTHERMAL-DECOMPOSITIONEXAFShigh pressureFE2O3 POLYMORPHdiamond anvil cellchemistry13. Climate actionChemical physicslcsh:Q0210 nano-technologyEarth (classical element)Nature Communications
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Thermal equation of state of ruthenium characterized by resistively heated diamond anvil cell

2019

AbstractThe high-pressure and high-temperature structural and chemical stability of ruthenium has been investigated via synchrotron X-ray diffraction using a resistively heated diamond anvil cell. In the present experiment, ruthenium remains stable in the hcp phase up to 150 GPa and 960 K. The thermal equation of state has been determined based upon the data collected following four different isotherms. A quasi-hydrostatic equation of state at ambient temperature has also been characterized up to 150 GPa. The measured equation of state and structural parameters have been compared to the results of ab initio simulations performed with several exchange-correlation functionals. The agreement b…

DiffractionEquation of stateMaterials sciencePhononAb initioPHASE-TRANSFORMATIONSThermodynamicschemistry.chemical_elementlcsh:MedicineRU02 engineering and technologyPRESSUREFE01 natural sciencesArticlePARAMETERSDiamond anvil celllaw.inventionCondensed Matter::Materials SciencelawCondensed Matter::SuperconductivityPhase (matter)0103 physical sciencesPROGRAMCondensed-matter physics010306 general physicsAuthor Correctionlcsh:ScienceMultidisciplinaryPhysicslcsh:R021001 nanoscience & nanotechnologySynchrotronRutheniumchemistrylcsh:QOSMIUMMETALS0210 nano-technologyScientific Reports
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