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High-pressure high-temperature mineral physics, crystal-chemistry (especially of hydrous minerals), single crystal X-ray diffraction, Raman spectroscopy Crystallography and crystal-chemistry of minerals (and synthetic analogues), X-ray single crystal and powder diffraction, Rietveld, synchrotron and neutron radiation facilities, zeolites and titanosilicates, micas, melilites, ceramic pigments, nanoscale properties of minerals Environmental mineralogy (mineral speciation, bioremediation, environmental monitoring and assessment), biominerals, scanning probe microscopy, synchrotron techniques applied to environmental sciences Crystal growth and dissolution kinetics, mineral-water interfaces, crystallization in porous media, solid solution-aqueous solution systems, biomineralization Transmission electron microscopy and related techniques, phosphates, phyllosilicates, new mineral species, mineral collections Metamorphic petrology, HP and UHP metamorphism, deformation mechanisms of minerals Boron isotopes, general mineralogy, geochemistry of metamorphic rocks, metamorphic petrology, mineral descriptions Crystal chemistry and crystal physics, especially Fe in minerals and OH in nominally anhydrous minerals; diamond-anvil cell, high-pressure experimentation, multi-anvil press, piston-cylinder apparatus, thermodynamics of solid solutions, vibrational spectroscopies (UV-VIS, FTIR, Raman, ambient conditions as well as function of P and T) X-ray diffraction (XRD), simulation of XRD patterns, interstratification, structure defects, order-disorder, lamellar structures, clays, phyllosilicates, phyllomanganates, oxyhydroxides, biomineralizations, environment, contaminated soils (heavy metal speciation), mineral surface reactivity, waste storage Sulfide mineralogy, ore deposits; applied mineralogy (especially environmental aspects) Clay mineralogy (paleoenvironments and basin analysis); sedimentary mineralogy; marine geochemistry; sedimentary geochemistry; biomineralization; paleooceanography Geobiology, Biomineralization/Biocarbonation, Carbon capture and Storage, Deep biosphere/deep life, Microimaging, Scanning/Transmission Electron Microscopy, X-ray imaging, X-ray fluorescence, X-ray Absorption Spectroscopy, Vibrational spectroscopy (Raman, FTIR), Environmental Microbiology High precision geochronology (U-Pb).Early planetary and solar system evolution; Earth differentiation.
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33rd Street, Hayden Hall, Philadelphia, PA 19104-6316, USA; [email protected] of Crystallography St. Mineralogy and Petrology University of Granada Fuentenueva s/n, 18002 Granada, Spain; [email protected], non ambient conditions, X ray powder diffraction, ancient glass, archaeometry First-principles modelling of mineral, modelling of isotopic fractionation processes, spectroscopic methods (specific interest in FTIR and Raman spectroscopy), OH defects in nominally anhydrous minerals, specific interest in the following minerals : zircon, kaolinite and serpentine group minerals, biogenic apatite and francolite TEM and SEM applied to characterization of inorganic materials dealing with environment pollution, remediation, health; biosphere-minerals and inorganics interaction; asbestos and other inorganic fibres (natural and synthetic) in different environments Aperiodic crystals, coordination chemistry, crystal chemistry, data collection and processing, incommensurate faces, inorganic compounds, modulated mineral structures, phase transitions, sulphides, sulfosalts, structural chemistry, determination of structure, symmetry, twinning, x-ray diffraction Marine sediments, diagenesis, hydrothermal processes, fluid-sediment interaction, clay minerals and oxyhydroxides, clays in fault zones, transmission electron microscopy and related techniques (SAED, AEM), geochemistry Computational mineralogy at extreme conditions, fist-principle methods, deep Earth (lower and upper mantle, core-mantle boundary, core and core formation), planetary ices (molecular solids, low-Z materials, ice-salts systems), theoretical spectroscopy, new smart materials Metamorphic petrology , Crustal anatexis, Contact metamorphism, Metapelites, Fluid inclusions, Melt Inclusions, Phase equilibria, Metamorphic microstructures, Biotite Crystallography, TEM, phase transitions, systematic mineralogy, crystal chemistry, order-disorder, metamorphism, high temperature, high pressure, TEM.
Obermiller), Stuttgart (Germany) [email protected] de Géologie, Ecole Normale Supérieure 24 rue Lhomond, 75005 Paris, France; [email protected] Université Lille 1 Unité Matériaux et Transformations UMR CNRS 8207 - Bat C6, 59655 Villeneuve d'Ascq Cedex, France; [email protected] of Pennsylvania Department of Earth and Environmental Science 240 S. Petersburg, Russia; [email protected] di Scienze della Terra, dell’Ambiente e della Vita Università degli Studi di Genova Corso Europa 26, 16132 Genova, Italy; [email protected]
Dynamics of orogenic cycles: combining geochronology, metamorphic petrology and structural geology; timing and duration of geological processes at different scales.
Heavy stable isotopes and trace element ratios to study fractionation processes. Development of new geochemical approaches and laboratory techniques High-pressure mineralogy, phase relations, phase transformation and crystal chemistry, transmission electron microscopy (TEM), electron imaging and chemical analysis, rheology in the Earth's mantle, analysis of dislocation microstructures Crystallography, polytypism, twinning, crystal structure of minerals Diamonds and inclusions in diamonds, mineral physics, X-ray diffraction, phase transitions, structure determination, micro Raman spectroscopy, high-pressure and high-temperature mineralogy, crystal chemistry, planetary mineralogy Experimental: neutron and synchrotron radiation with particular care to high-low temperature and high pressure diffraction measurements, aimed at determining cation partitioning and Eo S's, and re-constructing phase diagrams.
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