SHATSKY, Anton
Degree: Ph.D. in Mineralogy and crystallography (2003)
Birthday/place: June 22, 1976, Novosibirsk,
USSR
Citizenship: Russian Federation
Address
Av. Ak. Koptuga 3, Novosibirsk 630090, Russia
Phone: +7 9133856129
E-mail: anton.antonshatskiy.shatskiy@gmail.com
Education
Degree: Doctor of science in mineralogy and crystallography (2015)
Thesis : "Formation of carbonates and mechanism of carbonate melt migration in the Earth's mantle"
September, 1999 – June, 2002: Graduate School of the Trofimuk United Institute of Geology,
Geophysics and Mineralogy of the Siberian Branch of Russian Academy of Sciences
Degree: Ph.D. in mineralogy and crystallography (2003)
Field of Research : Experimental simulation of natural diamond formation
Thesis : "Experimental study of diamond crystallization in alkali carbonate and carbonate-silicate systems"
Supervisor : Dr. Yuri N. Palyanov
September, 1997 – July, 1999: Master’s Course of the Novosibirsk State University
Degree: Master in Geology, Specialization of Geochemistry (1999)
Field of Study: Crystallization and mineralogy of diamond
Thesis: "Experimental study of diamond crystallization in alkali carbonate-graphite systems at 7
GPa and 1700–1750˚C"
Thesis advisor: Dr. Yuri N. Palyanov
September, 1993 – July, 1997: Novosibirsk State University, Faculty of Geology and Geophysics
Degree: Bachelor in Geology, Specialization of Geochemistry (1997)
Field of Study: Fluid inclusion in minerals
Thesis: "Fluid regime of metamorphic rocks formation in the Maksutovsky complex (South Ural)"
Thesis advisor: Dr. Anatoly A. Tomilenko
1

EMPLOYMENT HISTORY
February, 2009 – Present: Research Fellow, Institute of Geology and Mineralogy of Siberian
Branch of Russian Academy of Sciences
February, 2009 – February, 2013: Assistant Professor, GCOE postdoctoral fellow, Tohoku
University, Department of Earth and Planetary Materials Science, Sendai, Japan
August, 2008 – February, 2009: Senior research fellow, V.S. Sobolev Institute of Geology and
Mineralogy SB RAS, Novosibirsk, Russia
July, 2004 – July, 2008: Postdoctoral Research Fellow, COE-21 Program, ISEI Okayama
University
July, 2002 – June, 2006: Research Fellow, Institute of Mineralogy and Petrography of Siberian
Branch of Russian Academy of Sciences
TEACHING EXPERIENCE
2009–2013
, Course “Dynamic Earth” for foreign students of International Exchange Program and
4 th
grade Japanese students of Geological department, Tohoku University, Japan.
2009–2013
, Part of “Advanced mineral physics” lecture course, Tohoku University, Japan.
PAST RESEARCH
1999-2002 Kinetics of diamond crystallization in alkali carbonate and carbonate-silicate systems.
2002-2003 Study of AlN crystallization at 6 GPa.
2004-2005 Development of scaled-up Kawai-cell assemblage for single crystal growth by thermal gradient method. Development of double-heater system for Kawai-cell.
2005-2006 Single crystal growth of upper and lower mantle minerals, stishovite, wadsleyite, perovskite. Water solubility in some mantle minerals.
2006-2007 B-doped diamond heater for temperature generation above 3000 °C in multianvil highpressure apparatus.
2007-2008. Silicon self-diffusion in stishovite.
2008-2009 Performance of press-less BARS apparatus equipped with the scaled-up Kawai-cell
(TEL=1 cm) up to 17 GPa.
2009-2010. Silicate diffusion in carbonatite and hydrous melts at transition zone and lower mantle conditions (500-700 km depth or 17-24 GPa).
2010-2011. Equation of states (EOS) of some metals, and oxides with implication to the redox buffers up to 33 GPa and 1500 °C.
2011-2012. Carbonate EOS up to 33 GPa and 1200 °C.
2

2012-2013. Phase relations in binary carbonate systems at 6 GPa.
2013-2014. Phase relations in ternary carbonate systems at 6 GPa.
2014-2015. Melting phase relations in kimberlite at 6.5 GPa vs. CO
2
content and temperature.
CURRENT RESEARCH INTERESTS
1. Phase relations in alkali-bearing carbonate-silicate systems under mantle P-T conditions.
2. Density and viscosity of carbonate and carbonate-silicate melts vs. pressure and temperature.
3. Technical development of large-volume high-pressure equipment.
REFERENCES
Prof. Eiji Ohtani (Physics of the Earth and Planetary Interiors)
E-mail: ohtani@m.tains.tohoku.ac.jp
Department of Earth and Planetary Materials Science,
Graduate School of Science, Tohoku University, Aoba-ku,
Sendai, 980-8578 Japan
Tel, Fax: 81-22-795-6662
Prof. Tomoo Katsura (Physic and chemistry of the Earth's interior, high-pressure mineral physics)
E-mail: tomo.katsura@uni-bayreuth.de
Bayerisches GeoInstitut, Universität Bayreuth, 95440 Bayreuth, Germany
Tel.: +49 (0)921 55 3791
Fax.: +49 (0)921 55 3769
LIST OF PUBLICATIONS
1.
2.
3.
4.
Pal'yanov, Y.N., A.G. Sokol, Y.M. Borzdov, A.F. Khokhryakov, A.F. Shatsky, and N.V.
Sobolev, The diamond growth from Li
2
CO
3
, Na
2
CO
3
, K
2
CO
3
and Cs
2
CO
3
solvent-catalysts at P=7 GPa and T=1700-1750 o
C.
Diamond and Related Materials, 1999. 8 (6): p. 1118-
1124.
Shatskii, A.F., Y.M. Borzdov, A.G. Sokol, and Y.N. Pal'yanov, Phase formation and diamond crystallization in carbon-bearing ultrapotassic carbonate-silicate systems.
Geologiya I Geofizika, 2002. 43 (10): p. 940-950.
Zhang, B., T. Katsura, A. Shatskiy, T. Matsuzaki, and X. Wu, Electrical conductivity of
FeTiO
3
ilmenite at high temperature and high pressure.
Physical Review B, 2006. 73 (13): p.
134104.
Katsura, T., S. Yokoshi, K. Kawabe, A. Shatskiy, M. Okube, H. Fukui, E. Ito, A. Nozawa, and K.-i. Funakoshi, Pressure dependence of electrical conductivity of (Mg, Fe)SiO
3 ilmenite.
Physics and Chemistry of Minerals, 2007. 34 (4): p. 249-255.
3

5.
6.
7.
Litasov, K.D., H. Kagi, A. Shatskiy, E. Ohtani, D.L. Lakshtanov, J.D. Bass, and E. Ito, High hydrogen solubility in Al-rich stishovite and water transport in the lower mantle.
Earth and
Planetary Science Letters, 2007. 262 (3-4): p. 620-634.
Shatskiy, A., H. Fukui, T. Matsuzaki, K. Shinoda, A. Yoneda, D. Yamazaki, E. Ito, and T.
Katsura, Growth of large (1 mm) MgSiO
3
perovskite single crystals: A thermal gradient method at ultrahigh pressure.
American Mineralogist, 2007. 92 (10): p. 1744-1749.
Yamazaki, D., E. Ito, Y. Tange, T. Yoshino, S. Zhai, H. Fukui, A. Shatskiy, T. Katsura, and
K.-i. Funakoshi, Phase boundary between ilmenite and perovskite structures in MnGeO
3 determined by in situ X-ray diffraction measurements.
Physics and Chemistry of Minerals,
2007. 34 (4): p. 269-273.
Jin, C.-Q., J.-S. Zhou, J.B. Goodenough, Q.Q. Liu, J.G. Zhao, L.X. Yang, Y. Yu, R.C. Yu, 8.
9.
T. Katsura, and A. Shatskiy, High-pressure synthesis of the cubic perovskite BaRuO
3
and evolution of ferromagnetism in ARuO
3
(A= Ca, Sr, Ba) ruthenates.
Proceedings of the
National Academy of Sciences, 2008. 105 (20): p. 7115-7119.
Xue, X., M. Kanzaki, and A. Shatskiy, Dense hydrous magnesium silicates, phase D, and superhydrous B: New structural constraints from one-and two-dimensional 29 Si and 1H
NMR.
American Mineralogist, 2008. 93 (7): p. 1099-1111.
10. Zhou, J.S., K. Matsubayashi, Y. Uwatoko, C.Q. Jin, J.G. Cheng, J.B. Goodenough, Q.Q.
Liu, T. Katsura, A. Shatskiy, and E. Ito, Critical behavior of the ferromagnetic perovskite
BaRuO
3
.
Physical Review Letters, 2008. 101 (7): p. 077206.
11. Ito, E., H. Fukui, T. Katsura, D. Yamazaki, T. Yoshino, Y. Alizawa, A. Kubo, S. Yokoshi,
K. Kawabe, S.M. Zhai, A. Shatzkiy, M. Okube, A. Nozawa, and K.I. Funakoshi,
Determination of high-pressure phase equilibria of Fe
2
O
3
using the Kawai-type apparatus equipped with sintered diamond anvils.
American Mineralogist, 2009. 94 (2-3): p. 205-209.
12. Katsura, T., A. Shatskiy, M. Manthilake, S. Zhai, D. Yamazaki, T. Matsuzaki, T. Yoshino,
A. Yoneda, E. Ito, M. Sugita, N. Tomioka, A. Nozawa, and K. Funakoshi, P-V-T relations of wadsleyite determined by in situ X-ray diffraction in a large-volume high-pressure apparatus.
Geophysical Research Letters, 2009. 36 : p. L11307.
13. Katsura, T., A. Shatskiy, M. Manthilake, S.M. Zhai, H. Fukui, D. Yamazaki, T. Matsuzaki,
A. Yoneda, E. Ito, A. Kuwata, A. Ueda, A. Nozawa, and K. Funakoshi, Thermal expansion of forsterite at high pressures determined by in situ X-ray diffraction: The adiabatic geotherm in the upper mantle.
Physics of the Earth and Planetary Interiors, 2009. 174 (1-4): p. 86-92.
14. Katsura, T., S. Yokoshi, K. Kawabe, A. Shatskiy, M. Manthilake, S.M. Zhai, H. Fukui, H.
Hegoda, T. Yoshino, D. Yamazaki, T. Matsuzaki, A. Yoneda, E. Ito, M. Sugita, N.
Tomioka, K. Hagiya, A. Nozawa, and K. Funakoshi, P-V-T relations of MgSiO
3
perovskite determined by in situ X-ray diffraction using a large-volume high-pressure apparatus.
Geophysical Research Letters, 2009. 36 : p. L01305.
15. Litasov, K.D., A.F. Shatskiy, T. Katsura, and E. Ohtani, Water solubility in forsterite at 8–
14 GPa.
Doklady Earth Sciences, 2009. 425 (2): p. 432-435.
16. Litasov, K.D., A.F. Shatskiy, Y.N. Pal'yanov, A.G. Sokol, T. Katsura, and E. Ohtani,
Hydrogen incorporation into forsterite in Mg
2
SiO
4
-K
2
Mg(CO
3
)
2
-H
2
O and Mg
2
SiO
4
-H
2
O-C at 7.5-14.0 GPa.
Russian Geology and Geophysics, 2009. 50 (12): p. 1129-1138.
17. Shatskiy, A., K.D. Litasov, T. Matsuzaki, K. Shinoda, D. Yamazaki, A. Yoneda, E. Ito, and
T. Katsura, Single crystal growth of wadsleyite.
American Mineralogist, 2009. 94 (8-9): p.
1130-1136.
18. Shatskiy, A., D. Yamazaki, G. Morard, T. Cooray, T. Matsuzaki, Y. Higo, K. Funakoshi, H.
Sumiya, E. Ito, and T. Katsura, Boron-doped diamond heater and its application to largevolume, high-pressure, and high-temperature experiments.
Review of Scientific
Instruments, 2009. 80 (2): p. 023907.
4

19. Yoshino, T., T. Matsuzaki, A. Shatskiy, and T. Katsura, The effect of water on the electrical conductivity of olivine aggregates and its implications for the electrical structure of the upper mantle.
Earth and Planetary Science Letters, 2009. 288 (1-2): p. 291-300.
20. Dymshits, A.M., A.V. Bobrov, K.D. Litasov, A.F. Shatskiy, E. Ohtani, and Y.A. Litvin,
Experimental study of the pyroxene-garnet phase transition in the Na
2
MgSi
5
O
12
system at pressures of 13–20 GPa: First synthesis of sodium majorite.
Doklady Earth Sciences, 2010.
434 (1): p. 1263-1266.
21. Ito, E., D. Yamazaki, T. Yoshino, H. Fukui, S.M. Zhai, A. Shatzkiy, T. Katsura, Y. Tange, and K. Funakoshi, Pressure generation and investigation of the post-perovskite transformation in MgGeO
3
by squeezing the Kawai-cell equipped with sintered diamond anvils.
Earth and Planetary Science Letters, 2010. 293 (1-2): p. 84-89.
22. Ito, E., T. Yoshino, D. Yamazaki, A. Shatskiy, S. Shan, X. Guo, T. Katsura, Y. Higo, and K.
Funakoshi, High pressure generation and investigation of the spin transition of ferropericlase (Mg
0.83
Fe
0.17
)O.
Journal of Physics: Conference Series, 2010. 215 (1): p.
012099.
23. Litasov, K.D., I.S. Sharygin, A.F. Shatskiy, E. Ohtani, and N.P. Pokhilenko, Experimental constraints on the role of chloride in the origin and evolution of kimberlitic magma.
Doklady Earth Sciences, 2010. 435 (2): p. 1641-1646.
24. Litasov, K.D., A. Shatskiy, Y. Fei, A. Suzuki, E. Ohtani, and K. Funakoshi, Pressurevolume-temperature equation of state of tungsten carbide to 32 GPa and 1673 K.
Journal of
Applied Physics, 2010. 108 (5): p. 053513-053513-7.
25. Matsuzaki, T., K. Hagiya, A. Shatskiy, T. Katsura, and M. Matsui, Crystal structure of anhydrous phase X, K
1.93
(Mg
2.02
Cr
0.02
)Si
2.00
O
7
.
Journal of Mineralogical and Petrological
Sciences, 2010. 105 (6): p. 303-308.
26. Shatskiy, A., Y.M. Borzdov, D. Yamazaki, K.D. Litasov, T. Katsura, and Y.N. Palyanov,
Aluminum Nitride Crystal Growth from an Al-N System at 6.0 GPa and 1800 o C.
Crystal
Growth & Design, 2010. 10 (6): p. 2563-2570.
27. Shatskiy, A., K.D. Litasov, H. Terasaki, T. Katsura, and E. Ohtani, Performance of semisintered ceramics as pressure-transmitting media up to 30 GPa.
High Pressure Research,
2010. 30 (3): p. 443-450.
28. Shatskiy, A., D. Yamazaki, Y.M. Borzdov, T. Matsuzaki, K.D. Litasov, T. Cooray, A. Ferot,
E. Ito, and T. Katsura, Stishovite single-crystal growth and application to silicon selfdiffusion measurements.
American Mineralogist, 2010. 95 (1): p. 135-143.
29. Wu, X., B. Zhang, J. Xu, T. Katsura, S. Zhai, T. Yoshino, G. Manthilake, and A. Shatskiy,
Electrical conductivity measurements of periclase under high pressure and high temperature.
Physica B: Condensed Matter, 2010. 405 (1): p. 53-56.
30. Bindi, L., A.M. Dymshits, A.V. Bobrov, K.D. Litasov, A.F. Shatskiy, E. Ohtani, and Y.A.
Litvin,
Crystal chemistry of sodium in the Earth’s interior: The structure of Na
2
MgSi
5
O
12 synthesized at 17.5 GPa and 1700 o
C.
American Mineralogist, 2011. 96 (2-3): p. 447-450.
31. Dymshits, A., A. Bobrov, L. Bindi, K. Litasov, A. Shatskiy, E. Ohtani, and Y.A. Litvin,
Synthesis of Na-bearing majorte in the system Mg3Al2Si3O12–Na2MgSi5O12 at 11-20
GPa: solid solutions and structural features.
Vestn. Otd. nauk Zemle, 2011. 3 : p. 11-20.
32. Litasov, K., A. Shatskiy, and N. Pokhilenko, Phase relations and melting in the systems of peridotite-H 2 O-CO 2 and eclogite-H 2 O-CO 2 at pressures up to 27 GPa.
Doklady Earth
Sciences, 2011. 437 (2): p. 498-502.
33. Litasov, K.D., A. Shatskiy, E. Ohtani, and T. Katsura, Systematic study of hydrogen incorporation into Fe-free wadsleyite.
Physics and Chemistry of Minerals, 2011. 38 (1): p.
75-84.
34. Litasov, K.D., A.F. Shatskiy, and N.P. Pokhilenko, Phase relations and melting in the systems of peridotite-H
2
O-CO
2
and eclogite-H
2
O-CO
2
at pressures up to 27 GPa.
Doklady
Earth Sciences, 2011. 437 (2): p. 498-502.
5

35. Pan, Y., R.I. Mashkovtsev, D. Huang, M. Mao, and A. Shatskiy, Mechanisms of Cr and H incorporation in stishovite determined by single-crystal EPR spectroscopy and DFT calculations.
American Mineralogist, 2011. 96 : p. 1331-1342.
36.
Shatskiy, A., Y.M. Borzdov, K.D. Litasov, E. Ohtani, A.F. Khokhryakov, Y.N. Pal’yanov, and T. Katsura, Pressless split-sphere apparatus equipped with scaled-up Kawai-cell for mineralogical studies at 10–20 GPa.
American Mineralogist, 2011. 96 (4): p. 541-548.
37. Shatskiy, A., T. Katsura, K.D. Litasov, A.V. Shcherbakova, Y.M. Borzdov, D. Yamazaki,
A. Yoneda, E. Ohtani, and E. Ito, High pressure generation using scaled-up Kawai-cell.
Physics of the Earth and Planetary Interiors, 2011. 189 (1-2): p. 92-108.
38. Yamazaki, D., E. Ito, T. Katsura, T. Yoshino, S. Zhai, H. Fukui, A. Shatskiy, X. Guo, S.
Shan, T. Okuchi, Y. Tange, Y. Higo, and K. Funakoshi, Phase boundary between perovskite and post-perovskite structures in MnGeO
3 determined by in situ X-ray diffraction measurements using sintered diamond anvils.
American Mineralogist, 2011. 96 : p. 89-92.
39. Dobretsov, N.L. and A.F. Shatskiy, Deep carbon cycle and geodynamics: the role of the core and carbonatite melts in the lower mantle.
Russian Geology and Geophysics, 2012.
53 (11): p. 1117-1132.
40. Pan, Y., M. Mao, Z. Li, S.M. Botis, R.I. Mashkovtsev, and A. Shatskiy, Single-crystal EPR study of three radiation-induced defects (Al–O
2
3−
, Ti
3+
and W
5+
) in stishovite.
Physics and
Chemistry of Minerals, 2012. 39 (8): p. 627-637.
41. Yoneda, A., T. Cooray, and A. Shatskiy, Single-crystal elasticity of stishovite: New experimental data obtained using high-frequency resonant ultrasound spectroscopy and a
Gingham check structure model.
Physics of the Earth and Planetary Interiors, 2012. 190 : p.
80-86.
42. Dymshits, A.M., A.V. Bobrov, L. Bindi, Y.A. Litvin, K.D. Litasov, A.F. Shatskiy, and E.
Ohtani, Na-bearing majoritic garnet in the Na
2
MgSi
5
O
12
-Mg
3
Al
2
Si
3
O
12
join at 11-20 GPa: phase relations, structural peculiarities and solid solutions.
Geochimica et Cosmochimica
Acta, 2013. 105 : p. 1-13.
43. Koroleva, O.N., V.N. Anfilogov, A. Shatskiy, and K.D. Litasov, Structure of Na
2
O–SiO
2 melt as a function of composition: In situ Raman spectroscopic study.
Journal of Non-
Crystalline Solids, 2013. 375 : p. 62-68.
44. Litasov, K.D., P.I. Dorogokupets, E. Ohtani, Y. Fei, A. Shatskiy, I.S. Sharygin, P.N.
Gavryushkin, S.V. Rashchenko, Y.V. Seryotkin, and Y. Higo, Thermal equation of state and thermodynamic properties of molybdenum at high pressures.
Journal of Applied Physics,
2013. 113 (9): p. 093507-10.
45. Litasov, K.D., P.N. Gavryushkin, P.I. Dorogokupets, I.S. Sharygin, A. Shatskiy, Y. Fei, S.V.
Rashchenko, Y.V. Seryotkin, Y. Higo, and K. Funakoshi, Thermal equation of state to 33.5
GPa and 1673 K and thermodynamic properties of tungsten.
Journal of Applied Physics,
2013. 113 : p. 133505.
46. Litasov, K.D., I.S. Sharygin, P.I. Dorogokupets, A. Shatskiy, P.N. Gavryushkin, T.S.
Sokolova, E. Ohtani, J. Li, and K. Funakoshi, Thermal equation of state and thermodynamic properties of iron carbide Fe
3
C to 31 GPa and 1473 K.
Journal of Geophysical Research:
Solid Earth, 2013. 118 : p. 1-11.
47. Litasov, K.D., A. Shatskiy, P.N. Gavryushkin, I.S. Sharygin, P.I. Dorogokupets, A.M.
Dymshits, E. Ohtani, Y. Higo, and K. Funakoshi, P-V-T equation of state of siderite to 33
GPa and 1673 K.
Physics of the Earth and Planetary Interiors, 2013. 224 : p. 83-87.
48. Litasov, K.D., A. Shatskiy, and E. Ohtani, Earth's Mantle Melting in the Presence of C–O–
H–Bearing Fluid , in Physics and chemistry of the deep Earth , S. Karato, Editor. 2013, John
Wiley & Sons, Ltd. . p. 38-65.
49. Litasov, K.D., A. Shatskiy, E. Ohtani, and G.M. Yaxley, The solidus of alkaline carbonatite in the deep mantle.
Geology, 2013. 41 (1): p. 79-82.
6

50. Litasov, K.D., A.F. Shatskiy, S.G. Ovchinnikov, Z.I. Popov, D.S. Ponomarev, and E.
Ohtani, Phase transformations of Fe
3
N-Fe
4
N iron nitrides at pressures up to 30 GPa studied by in situ X-ray diffractometry.
JETP Letters, 2013. 98 (12): p. 805-808.
51. Litasov, K.D., I.S. Sharygin, A.F. Shatskii, P.N. Gavryushkin, P.I. Dorogokupets, E. Ohtani,
A.M. Dymshits, and T.A. Alifirova, P-V-T equations of state of iron carbides Fe
3
C and
Fe
7
C
3
and their relationships under the conditions of the Earth’s mantle and core. Doklady
Earth Sciences, 2014.
453 (2): p. 1269-1273.
52. Sharygin, I.S., K.D. Litasov, A.F. Shatskiy, A.V. Golovin, E. Ohtani, and N.P. Pokhilenko,
Melting of kimberlite of the Udachnaya East pipe: experimental study at 3–6.5 GPa and
900–1500°C.
Doklady Earth Sciences, 2013. 448 : p. 200-205.
53. Shatskiy, A., P.N. Gavryushkin, I.S. Sharygin, K.D. Litasov, I.N. Kupriyanov, Y. Higo,
Y.M. Borzdov, K. Funakoshi, Y.N. Palyanov, and E. Ohtani, Melting and subsolidus phase relations in the system Na
2
CO
3
-MgCO
3
+-H
2
O at 6 GPa and the stability of Na
2
Mg(CO
3
)
2
in the upper mantle.
American Mineralogist, 2013. 98 (11-12): p. 2172-2182.
54. Shatskiy, A., K.D. Litasov, Y.M. Borzdov, T. Katsura, D. Yamazaki, and E. Ohtani, Silicate diffusion in alkali-carbonatite and hydrous melts at 16.5 and 24 GPa: Implication for the melt transport by dissolution-precipitation in the transition zone and uppermost lower mantle.
Physics of the Earth and Planetary Interiors, 2013. 225 : p. 1-11.
55. Shatskiy, A., I.S. Sharygin, P.N. Gavryushkin, K.D. Litasov, Y.M. Borzdov, A.V.
Shcherbakova, Y. Higo, K. Funakoshi, Y.N. Palyanov, and E. Ohtani, The system K
2
CO
3
-
MgCO
3
at 6 GPa and 900-1450 ºC.
American Mineralogist, 2013. 98 (8-9): p. 1593-1603.
56. Shatskiy, A., I.S. Sharygin, K.D. Litasov, Y.M. Borzdov, Y.N. Palyanov, and E. Ohtani,
New experimental data on phase relations for the system Na
2
CO
3
-CaCO
3
at 6 GPa and 900-
1400 ºC.
American Mineralogist, 2013. 98 (11-12): p. 2164-2171.
57. Chanyshev, A.D., K.D. Litasov, A.F. Shatskiy, J. Furukawa, and E. Ohtani, Stability conditions of polycyclic aromatic hydrocarbons at high pressures and temperatures.
Geochemistry International, 2014. 52 (9): p. 767-772.
58. Chanyshev, A.D., K.D. Litasov, A.F. Shatskiy, and E. Ohtani, Study of polycyclic aromatic hydrocarbons at a pressure of 6–9 GPa with X-ray diffraction and synchrotron radiation.
Doklady Earth Sciences, 2014. 458 (2): p. 1277-1280.
59. Dymshits, A.M., K.D. Litasov, I.S. Sharygin, A. Shatskiy, E. Ohtani, A. Suzuki, and K.
Funakoshi, Thermal equation of state of majoritic knorringite and its significance for continental upper mantle.
Journal of Geophysical Research: Solid Earth, 2014. 119 (11): p.
8034-8046.
60. Dymshits, A.M., K.D. Litasov, A. Shatskiy, I.S. Sharygin, E. Ohtani, A. Suzuki, N.P.
Pokhilenko, and K. Funakoshi, P-V-T equation of state of Na-majorite to 21 GPa and 1673
K.
Physics of the Earth and Planetary Interiors, 2014. 227 : p. 68-75.
61. Gavryushkin, P.N., V.V. Bakakin, N.B. Bolotina, A.F. Shatskiy, Y.V. Seryotkin, and K.D.
Litasov, Synthesis and crystal structure of new carbonate Ca
3
Na
2
(CO
3
)
4
homeotypic with orthoborates M
3
Ln
2
(BO
3
)
4
(M = Ca, Sr, and Ba).
Crystal Growth & Design, 2014. 14 (9): p.
4610-4616.
62. Litasov, K.D., A. Shatskiy, and E. Ohtani, Melting and subsolidus phase relations in peridotite and eclogite systems with reduced C-O-H fluid at 3-16 GPa.
Earth and Planetary
Science Letters, 2014. 391 : p. 87-99.
63. Shatskiy, A., Y.M. Borzdov, K.D. Litasov, I.N. Kupriyanov, E. Ohtani, and Y.N. Palyanov,
Phase relations in the system FeCO
3
-CaCO
3
at 6 GPa and 900-1700 °C and its relation to the system CaCO
3
-FeCO
3
-MgCO
3
.
American Mineralogist, 2014. 99 (4): p. 773-785.
64. Zedgenizov, D.A., A. Shatskiy, A.L. Ragozin, H. Kagi, and V.S. Shatsky, Merwinite in diamond from São Luis, Brazil: A new mineral of the Ca-rich mantle environment.
American Mineralogist, 2014. 99 (2-3): p. 547-550.
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65. Chanyshev, A.D., K.D. Litasov, A.F. Shatskiy, Y. Furukawa, T. Yoshino, and E. Ohtani,
Oligomerization and carbonization of polycyclic aromatic hydrocarbons at high pressure and temperature.
Carbon, 2015. 84 : p. 225-235.
66. Chanyshev, A.D., K.D. Litasov, A.F. Shatskiy, and E. Ohtani, In situ X-ray diffraction study of decomposition of polycyclic aromatic hydrocarbons at pressures of 7–15 GPa:
Implication to fluids under the Earth's and planetary environments.
Chemical Geology,
2015. 405 : p. 39-47.
67. Dymshits, A., I. Sharygin, K. Litasov, A. Shatskiy, P. Gavryushkin, E. Ohtani, A. Suzuki, and K. Funakoshi, In situ observation of the pyroxene-majorite transition in Na
2
MgSi
5
O
12 using synchrotron radiation and Raman spectroscopy of Na-majorite.
American
Mineralogist, 2015. 100 (2-3): p. 378-384.
68. Dymshits, A., I. Sharygin, I. Podborodnikov, K. Litasov, A. Shatskiy, E. Otani, and D.Y.
Pushcharovskii. Thermal equation of state of NaMg
0.5
Si
2.5
O
6
and new data on the compressibility of clinopyroxenes . in Doklady Earth Sciences . 2015. Springer.
69. Martirosyan, N., K. Litasov, A. Shatskiy, and E. Ohtani, Reactions of iron with calcium carbonate at 6 GPa and 1273–1873 K: implications for carbonate reduction in the deep mantle.
Russian Geology and Geophysics, 2015. 56 (9): p. 1322-1331.
70. Martirosyan, N.S., K.D. Litasov, A. Shatskiy, and E. Ohtani, The reactions between iron and magnesite at 6 GPa and 1273–1873 K: Implication to reduction of subducted carbonate in the deep mantle.
Journal of Mineralogical and Petrological Sciences, 2015. 110 (2): p. 49-
59.
71. Sharygin, I., K. Litasov, A. Shatskiy, A. Golovin, E. Ohtani, and N. Pokhilenko, Melting
Phase Relations of the Udachnaya-East Group-I Kimberlite at 3.0-6.5 GPa: Experimental
Evidence for Alkali-Carbonatite Composition of Primary Kimberlite Melts and Implications for Mantle Plumes.
Gondwana Research, 2015. 28 : 1391-1414.
72. Shatskiy, A., Y.M. Borzdov, K.D. Litasov, I.S. Sharygin, Y.N. Palyanov, and E. Ohtani,
Phase relationships in the system K
2
CO
3
-CaCO
3
at 6 GPa and 900-1450ºC.
American
Mineralogist, 2015. 100 (1): p. 223-232.
73. Shatskiy, A., P.N. Gavryushkin, K.D. Litasov, O.N. Koroleva, I.N. Kupriyanov, Y.M.
Borzdov, I.S. Sharygin, K. Funakoshi, Y.N. Palyanov, and E. Ohtani, Raman spectroscopic and X-ray diffraction studies of the Na-Ca carbonates synthesized under upper mantle conditions.
European Journal of Mineralogy, 2015. 27 : p. 175-184.
74. Shatskiy, A., K.D. Litasov, E. Ohtani, Y.M. Borzdov, A.I. Khmelnicov, and Y.N. Palyanov,
Phase relations in the K
2
CO
3
-FeCO
3
and MgCO
3
-FeCO
3
systems at 6 GPa and 900-1700
°C.
European Journal of Mineralogy, 2015. 27 (4): p. 487-499.
75. Shatskiy, A., S.V. Rashchenko, E. Ohtani, K.D. Litasov, M.V. Khlestov, Y.M. Borzdov,
I.N. Kupriyanov, I.S. Sharygin, and Y.N. Palyanov, The system Na
2
CO
3
-FeCO
3
at 6 GPa and its relation to the system Na
2
CO
3
-FeCO
3
-MgCO
3
.
American Mineralogist, 2015.
100 (1): p. 130-137.
76. Shatskiy, A.F., K.D. Litasov, and Y.N. Palyanov, Phase relations in carbonate systems at pressures and temperatures of lithospheric mantle: review of experimental data.
Russian
Geology and Geophysics, 2015. 56 : p. 113-142.
77. Shatskiy, A., K.D. Litasov, Y.N. Palyanov, and E. Ohtani, Phase relations on the K
2
CO
3
-
CaCO
3
-MgCO
3
join at 6 GPa and 900-1400 °C: implication for incipient melting in carbonated mantle domains.
American Mineralogist, 2016. 101 (2): p. http://dx.doi.org/10.2138/am-2015-5332.
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