selected publications chapter Carbon-Bearing Phases throughout Earth’s Interior. Deep Carbon: Past to Present. 66-88. conference paper Structural stability of methane and ethane at high pressures Structure of methane and ethane at high pressure. Acta Crystallographica Section A. C757. journal article Experimental study of thermal conductivity at high pressures: Implications for the deep Earth’s interior. Physics of the Earth and Planetary Interiors. 247:11-16. 2015 Carbon precipitation from heavy hydrocarbon fluid in deep planetary interiors. Nature Communications. 4. 2013 Optical properties of siderite (FeCO3) across the spin transition: Crossover to iron-rich carbonates in the lower mantle . American Mineralogist. 100:1059-1064. Aragonite-II and CaCO3-VII – new high-pressure high-temperature polymorphs of CaCO3. Crystal Growth & Design. High-Pressure Phase Diagrams of Na2CO3 and K2CO3. Minerals. 9:599. Metallization and molecular dissociation of dense fluid nitrogen. Nature Communications. 9. Optical signatures of low spin Fe3+ in NAL at high pressure. Journal of Geophysical Research-Solid Earth. 122:3565-3573. Radiative conductivity and abundance of post-perovskite in the lowermost mantle. Earth and Planetary Science Letters. 479:43-49. Raman spectroscopy and x-ray diffraction of sp3 CaCO3 at lower mantle pressures. Physical Review B. 96:104101. Reduced radiative conductivity of low spin FeO6-octahedra in FeCO3 at high pressure and temperature. Earth and Planetary Science Letters. 449:20-25. Reduced radiative conductivity of low spin FeO6-octahedra in FeCO3 at high pressure and temperature. Earth and Planetary Science Letters. 449:20-25. Stable magnesium peroxide at high pressure. Scientific Reports. 5. Synthesis of Ultra-incompressible sp3-Hybridized Carbon Nitride with 1:1 Stoichiometry. Chemistry of Materials. 28:6925-6933.
mailing address slobanov@ciw.edu, 5323 Connecticut ave., NW. App. 705 Washington, DC 20015 United States of America