CURRICULUM VITAE

 

Name (family name): Sergei Vladimirovich Goryainov

   passport name:       Sergey Goryaynov

   Russian name:        Сергей Владимирович Горяйнов

 

Work address: Sobolev Institute of Geology and Mineralogy of Siberian Branch of the Russian

Academy of Sciences, pr. Acad. Koptyug 3, Novosibirsk, 630090, Russia

Office fax: (+7-383)333-2792    Phone: +7-923-189-6253 

E-mail: svg@igm.nsc.ru

Current position: Senior researcher of Laboratory of metamorphism and metasomatose No. 440.

 

High education: Diploma of the Novosibirsk State University, the Physical Department

1993           Candidate of Physical and Mathematical Sciences in Solid State Physics from the Kirensky Institute of Physics, Krasnoyarsk. The title of Candidate's thesis is "The analysis of vibrational spectra and phase transformations in zeolites".

Recent work history

1993-2006 Researcher, Senior Researcher at the Laboratory of Solid State Transformations in

Minerals of the Institute of Mineralogy and Petrography, Novosibirsk

2002         Visiting fellowship, Centre for Chemical Physics, University of Western Ontario, London, Canada

2005         Professor Assistant of the Novosibirsk State Architect-Building University, Novosibirsk

2005         User of the beamline-1 (ring VEPP-3) at Siberian Synchrotron and Teraherz Radiation

                 Centre (SSTRC), Budker Institute of Nuclear Physics of SB Russian Academy of Sciences,

     Novosibirsk, Russia

2008         Scientist, Geology Department, University of Saskatchewan, Saskatoon, Canada

2006 - present, Senior researcher, V.S. Sobolev Institute of Geology and Mineralogy of Siberian

     Branch of the Russian Academy of Sciences, Novosibirsk, Russia

 

Recent international research experience (details):

2002 for 6 months, visiting fellowship, work with Prof. R. Secco and Y. Huang, University of

            Western Ontario, London, WO, Canada;

2006 for week, research and planning of low-angle neutron scattering investigation at Dubna Centre

for Neutron Researches of the Joint Institute of Nuclear Researches, Dubna, Russia;

2008 for 4 months, visiting fellowship, work with Prof. Y. Pan, University of Saskatchewan,

Saskatoon, SK, Canada;

2016 for week, investigation at ESRF- European Synchrotron Radiation Facility, Grenoble, France;

2017 for week, investigation at National Geophysical Research Institute, Hyderabad, India;

2018 for week, investigation at synchrotron facility SPring-8, cooperation with JASRI– Japan

 Synchrotron Radiation Institute, Hyogo, Japan.

 

Research experience and methods

Major in-situ methods of investigations of materials at high pressure up to 20 GPa and high T, using electrical and laser heat in diamond anvil cell (DAC), are (1) Raman spectroscopy using Horiba Jobin Yvon LabRam HR800 spectrometer with 532 and 325-nm beam lines of two lasers at V.S.Sobolev Institute of Geology and Mineralogy of SB Russian Academy of Sciences, Novosibirsk, and (2) synchrotron powder X-ray diffraction at the Siberian Synchrotron and Terahertz Radiation Centre of the Budker Institute of Nuclear Physics of SB Russian Academy of Sciences, Novosibirsk, where X-ray diffraction data are collected with Image Plate (MAS 345 based) detector. XRD measurements at SPring-8 (Japan) and ESRF (Grenoble, France) are regularly carried out. I use the Rietveld method (GSAS and SHELX programs) to refine crystal structure as well as to determine the phase compositions of the matter at extreme conditions.

   Involved measurements: neutron scattering, XRF electron microprobe, FTIR, optical and electron microscopy, DC/AC electrical conductivity, 1000-ton cubic anvil press. Neutron diffraction study is performed at the research reactor IVV-2M (Institute of Metal Physics, Ekaterinburg, Zarechny) at wave length λ=1.805 A, using high-pressure cell. In 2006, low-angle neutron scattering investigation jointly with D.P. Kozlenko was started in the Dubna Centre for Neutron Researches of the Joint Institute of Nuclear Researches. Crystal structure and molecular dynamics have been studied by means of neutron diffraction at high pressures up to 5 GPa using sapphire anvil high-pressure cell. Neutron scattering was recorded with the DN-12 spectrometer at the IBR-2 high fluxed reactor (Dubna, JINR, Russia). Powder diffraction data were analyzed by the FullProf program.

    I work with computer in Word, Postscript, MS-DOS, LaTeX, Sci.Word, Corel, Origin, PeakFit, MathLab etc. and use of the crystal structure programs (ATOMS, SHELLX, FullProf), lattice-dynamical programs (LADY by M.B.Smirnov) and molecular-dynamical programs (GULP by J.Gale). Made own programs in Basic, Fortran and Assembler.

    At present, I focused in investigation of the matter (datolite, talc, chrysotile, phengite etc.) at extreme conditions (simultaneously high P-T: up to 20 GPa, 600 °C). I study of pressure-induced amorphization of crystals, phase transitions in solids and liquids at low and high temperatures, inclusions in minerals, water tracer diffusion, deuteration, water sorption, cationic exchange of zeolites with salt melts and solutions. The study of advanced materials includes: diamond-like doped films, layered structures, mesoporous mesophase structures, gas hydrates, solids for nonlinear optics, luminescence of solids at liquid helium temperature. Calculations with lattice-dynamical programs of structure and phonon branches of crystals are carried out.

 

Teaching experience

2005 At the Novosibirsk State University and the Novosibirsk State Architect-Building University;

Lectures at International conferences (OMA-10…-21, the last at GeoRaman-2016).

 

My pupils (as former students and graduate students) in research range of high-pressure Raman spectroscopy

   Dr. A.V. Kurnosov, achievement:  2005- present - staff scientist at Bavarian Research Institute of Experimental Geochemistry and Geophysics, Bayreuth University, Bayreuth, Germany;

  Dr. Yu.M. Papilos (Miroshnichenko), achievement: 2009 - professor assistant at Las-Vegas University, USA;

   I.A. Madyukov, 2010-2015 - researcher at IGM SB RAS, Novosibirsk; 2011-for 2 week, investigation at National Geophysical Research Institute, Hyderabad, India; 2015-present – IT computer company;

   U.O. Borodina, 2017-2018- graduate student, 2019–present – research-engineer at IGM SB RAS, Novosibirsk.

   Graduate student position for Russian and foreign applicants is currently open. Topics and methods: Raman spectroscopy, XRD diffraction (at SSTRC, ESRF and SPring-8), minerals and materials at high pressure and high temperature, matter at extreme conditions, lattice-dynamical calculations, ab-initio calculations etc.

 

Cooperation in joint research projects

   Submitted projects:

1996    INTAS project (European), leaders of teams: S.A.T. Redfern, S.V.Goryainov, A.Je.Semjonow, I.A. Kiseleva

1998        INTAS project (European), leaders of teams: M.T.Dove, S.V. Goryainov, M.B. Smirnov, D.Bougeard

1999        COBASE project (USA), R.J.Hemley and S.V.Goryainov

2001    DAAD project (Germany), L.S.Dubrovinsky and S.V.Goryainov

   Fulfilled and current projects granted:

1993-1996  INTAS grant, co-ordinator F.Fringuelli, participation in the team of Institute of Mineralogy and Petrography, Novosibirsk

2000-2002     CRDF REC-008 grant, co-ordinator V.V.Boldyrev, Novosibirsk State University, Novosibirsk

2002  Centre for Chemical Physics grant for S.V.Goryainov visit, leaders R.Secco and Y.Huang, University of Western Ontario, Canada

2003-2009  CRDF-BRHE grant (NO-008-X1) supported by US government, co-ordinator V.V. Boldyrev, Novosibirsk State University

2006-2008  the Program of the Presidium of Russian Academy of Sciences P9-3 (Moscow), “Matter at extreme conditions”, team leader S.V.Goryainov, Institute of Geology and Mineralogy, Novosibirsk

1998-2000, 2002-2004,… 2014-2016, several grants of the Russian Foundation for Basic Researches, team leader S.V. Goryainov

2009-2011, 2015-2017- two grants of the Indian Research Foundation and Russian Foundation for Basic Research, team leader A.Yu. Likhacheva

2016    project - experiment СH-4901 (organic crystals at high pressure) at ESRF, Grenoble, France,

team leader E.V. Boldyreva

2018    projects 2018A1251, 2018B1243/BL10XU at SPring-8, Japan, team leader J.S. Tse

2018-present- grant of the Russian Foundation for Basic Researches, team leader S.V. Goryainov.

 

Websites:  ResearchGate website:

https://www.researchgate.net/profile/Sergei_Goryainov/publications

Top list of Russian scientists:

http://expertcorps.ru/science/whoiswho/ci7

 

Publications   Have 125 papers in international and Russian journals and one monograph.

Publication activity: h-index of S. Goryainov h=18, citations 1300.

List of recent selected publications in 2014- present (May, 2019):

                                               

                                                                2014

1. Grishina S.N., Polozov A.G., Smirnov S.Z., Mazurov M.P., Goryainov S.V. Inclusions in chloride xenoliths from the Udachnaya-East kimberlite // Geochemistry International, 2014, V. 52, No. 7. P. 595–603.

 

2. Krylov A., Goryainov S., Laptash N., Vtyurin A., Melnikova S., Krylova S. Influence of the molecular groups ordering on structural phase transitions in (NH₄)₂WO₂F₄ crystal.// Crystal Growth & Design. 2014, V. 14. P. 374-380.

 

3. S. N. Grishina, A. G. Polozov, M.P. Mazurov,  S.V. Goryainov, Genesis of chloride–carbonate segregations of the Udachnaya-East pipe.// Doklady Earth Sciences, 2014, Vol. 458,  Part 1, pp. 1129–1131.

 

4. S.V. Goryainov, A.Y. Likhacheva, S.V. Rashchenko, A.S. Shubin, V.P. Afanas’ev and N.P. Pokhilenko. Raman identification of lonsdaleite in Popigai impactites.// J. Raman Spectrosc. 2014, 45, 305–313.

 

5. Krylov A.S., Sofronova S.N., Kolesnikova E.M., Ivanov Yu.N., Sukhovsky A.A., Goryainov S.V., Ivanenko A.A., Shestakov N.P., Kocharova A.G., Vtyurin A.N. Experimental and theoretical methods to study structural phase transition mechanisms in K₃WO₃F₃ oxyfluoride. // J. Solid State Chem. 2014. V. 218. P. 32-37.

 

6. T.N. Moroz, S.V. Goryainov, Academician N.P. Pokhilenko, N.M. Podgornykh. Crystalline and amorphous matter in the Chelyabinsk meteorite: Evidence from Raman spectroscopy// Doklady Earth Sciences, 2014, Vol. 457, Part 1, pp. 831–834.

 

7. Sokol E.V., Seryotkin Y.V., Kokh S.N., Vapnik Y., Nigmatulina E.N., Goryainov S.V., Belogub E.V., Sharygin V.V. Flamite, IMA 2013-122. CNMNC Newsletter No. 17, June 2014// Mineralogical Magazine, v. 77. p. 2997-3005.

                                                                2015

1. Goryainov S.V., Krylov A.S., Vtyurin A.N., Pan Y. Raman study of datolite CaBSiO₄(OH) at simultaneously high pressure and high temperature // Journal of Raman Spectroscopy. 2015, 46, 177–181.

 

2. T.N. Moroz, V.A. Ponomarchuk, S.V. Goryainov, N.A. Palchik, H.G.M. Edwards, S.M. Zhmodik. Raman spectra of natural carbonaceous materials from a black shale formation // Journal of Raman Spectroscopy. 2015, 46, 959-963.

 

3. Sokol E.V., Seryotkin Y.V., Kokh S.N., Vapnik Y., Nigmatulina E.N., Goryainov S.V., Belogub E.V., Sharygin V.V.  Flamite, (Ca,Na,K)₂(Si,P)O₄, a new mineral from ultrahigh-temperature combustion metamorphic rocks, Hatrurim Basin, Negev Desert, Israel.// Mineralogical Magazine, June 2015, Vol. 79(3), pp. 583–596.

 

4. Goryainov S.V., Krylov A.S., Vtyurin A.N., Pan Y. Behavior of CaBSiO₄(OH) datolite at high temperatures and pressures of a water medium.// Bulletin of the  Russian Academy of Sciences. Physics, 2015, Vol. 79, No. 6, pp. 794–797.

 

5. Ugap’eva S.S., Pavlushin A.D., Goryainov S.V., Typo-morphous characteristics of diamond crystals with olivine inclusions at Ebelyakh placers and kimberlite rocks of Yakutia.// Science and Education. 2015, V.2 (78), P. 28-34. (in Russian)

                                                                2016

1. Khoury H.N., Sokol E.V., Kokh S.N., Seryotkin Yu.V., Nigmatulina E.N., Goryainov S.V., Belogub E.V.,  Clark I.D. Tululite, Ca₁₄(Fe³⁺,Al)(Al,Zn,Fe³⁺,Si,P,Mn,Mg)₁₅O₃₆: a new Ca zincate-aluminate from combustion metamorphic marbles, central Jordan.// Mineralogy and Petrology. 2016. V. 110 (1). P. 125–140.

 

2. Khoury H.N., Sokol E.V., Kokh S.N., Seryotkin Yu.V., Kozmenko O.A., Goryainov S.V., Clark I.D. Intermediate members of the lime-monteponite solid solutions (Ca_1-xCd_xO, x = 0.36-0.55): Discovery in natural occurrence.// American Mineralogist, 2016. V. 101. P. 132-147.

 

3. Sokol E.V., Kokh S.N., Khoury H.N., Seryotkin Yu.V., Goryainov S.V. Long-term immobilisation of Cd2+ at the Tulul Al Hammam natural analogue site, central Jordan.// Applied Geochemistry. 2016. V. 70. P. 43-60.

 

4. Rashchenko S.V., Likhacheva A.Yu., Goryainov S.V., Krylov A.S., Litasov K.D. In situ spectroscopic study of water intercalation into talc: New features of 10 Å phase formation.// American Mineralogist, 2016. V. 101. P. 431–436.

 

5. Likhacheva A.Yu., Goryainov S.V., Seryotkin Yu.V., Litasov K.D., Momma K. Raman spectroscopy of chibaite, natural MTN silica clathrate, at high pressure up to 8 GPa.// Microporous and Mesoporous Materials. 2016. V. 224. P. 100-106.

 

6. S.V. Goryainov, A.S. Krylov, A.N. Vtyurin, A.Yu. Likhacheva, P.S.R. Prasad. In situ Raman study of wairakite and dawsonite interaction with water at high P–T parameters.// Bulletin of the Russian Academy of Sciences. Physics, 2016. V. 80, No. 5. P. 522–524.

 

7. B.A. Zakharov, S.V. Goryainov, E.V. Boldyreva. Unusual seeding effect in the liquid-assisted high-pressure polymorphism of chlorpropamide // CrystEngComm, 2016. V.18. P. 5423 –5428.

 

8. Ugap’eva S.S., Pavlushin A.D., Goryainov S.V., Afanasiev V.P., Pokhilenko N.P. Comparative characteristic of diamonds with olivine inclusions from the Ebelyakh placers and kimberlite pipes of the Yakutian diamondiferous province.// Doklady Earth Sciences, 2016. V. 468 (1). P. 473-477.

 

9. Goryainov S.V. Raman study of thaumasite Ca₃Si(OH)₆(SO₄)(CO₃)12H₂O at high pressure.// Journal of Raman Spectroscopy. 2016. V. 47. P. 984–992.

 

10. Ugap'eva S.S., Biller A.Ya., Oleinikov O.B., Goryainov S.V., Popov V.I. Raman spectroscopy in the study of inclusions in diamonds and garnets from placers and tuffits of North-East of Siberian platform.// Domestic Geology, 2016, No. 6. P. 29-34. (in Russian)

                                                                2017

1. S.V. Goryainov, Y. Pan, M.B. Smirnov, W. Sun, J.-X. Mi. Raman investigation on the behavior of parasibirskite CaHBO₃ at high pressure.// Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 2017. V. 173. P. 46–52

http://dx.doi.org/10.1016/j.saa.2016.08.040

 

2. S.V. Rashchenko, T.B. Bekker, V.V. Bakakin, Yu.V. Seryotkin, E.A . Simonova, S.V. Goryainov. New fluoride borate with ‘anti-zeolite’ structure: A possible link to Ba₃(BO₃)₂.// Journal of Alloys and Compounds, 2017. V. 694. P. 1196-1200.

http://dx.doi.org/10.1016/j.jallcom.2016.10.119

 

3. S.V. Goryainov, A.S. Krylov, O.P. Polyansky, A.N. Vtyurin, N.Yu. Zmeeva. In situ Raman spectroscopic study of interaction between phengite and water under P–T conditions typical of subduction zones.// Bulletin of the Russian Academy of Sciences: Physics, 2017, vol. 81, No. 5, pp. 590-593.

 

4. S.V. Goryainov, A.S. Krylov, O.P. Polyansky, A.N. Vtyurin. In-situ Raman study of phengite compressed in water medium under simultaneously high P-T parameters.// Journal of Raman Spectroscopy, 2017, vol. 48, pp. 1431–1437.

http://onlinelibrary.wiley.com/doi/10.1002/jrs.5112/epdf

 

5. S.V. Rashchenko, S.V. Goryainov, A.V. Romanenko, A.V. Golovin, A.V. Korsakov, B.N. Moine, A.O. Mikhno. High-pressure Raman study of nyerereite from OlDoinyo Lengai.// Journal of Raman Spectroscopy, 2017, vol.48, pp.1438–1442.

http://onlinelibrary.wiley.com/doi/10.1002/jrs.5152/epdf

 

6. A.V. Golovin, S.V. Goryainov, S.N. Kokh, I.S. Sharygin, S.V. Rashchenko, K.A. Kokh, E.V. Sokol, A.S. Devyatiyarova. The application of Raman spectroscopy to djerfisherite identification.// Journal of Raman Spectroscopy, 2017, vol. 48, pp. 1574–1582. http://onlinelibrary.wiley.com/doi/10.1002/jrs.5210/epdf

 

7. A.Yu. Likhacheva, A.D. Chanyshev, S.V. Goryainov, S.V. Rashchenko, K.D. Litasov. High-pressure–high temperature (HP-HT) stability of polytetrafluoroethylene: Raman spectroscopic study up to 10 GPa and 600 °C.// Applied Spectroscopy, 2017, 71 (8), 1842–1848. http://journals.sagepub.com/doi/10.1177/0003702817691529

 

8. E.V. Sokol, S.N. Kokh, H.N. Khoury, Yu.V. Seryotkin, S.V. Goryainov, S.A. Novikova, I.A. Sokol. Natural analogue approaches to prediction of long-term behaviour of Ca2UO5∙2-3H2O X-Phase: case study from Tulul Al Hammam site, Jordan.// Arabian Journal of Geosciences, 2017, 10:512, 1-14. https://doi.org/10.1007/s12517-017-3305-5

                                                                2018

1. A.Yu. Likhacheva, S.N. Dementiev, S.V. Goryainov. Compressibility and reversible amorphization of thaumasite Ca₃Si(OH)₆(CO₃)(SO₄)·12H₂O pressurized in methanol–ethanol–H₂O up to 5 GPa.// Physics and Chemistry of Minerals, 2018. Vol. 45. P. 219–226. https://doi.org/10.1007/s00269-017-0910-5

 

2. A.V. Romanenko, S.V. Rashchenko, S.V. Goryainov, A.Yu. Likhacheva, A.V. Korsakov, In situ Raman study of liquid water at high pressure.// Applied Spectroscopy, 2018. Vol.72(6). P. 847-852. DOI: 10.1177/0003702817752487

 

3. S. Grishina, P. Koděra, L.M. Uriarte, J. Dubessy, A. Oreshonkov, S. Goryainov, F. Šimko, I. Yakovlev, E.M. Roginskii, Identification of anhydrous CaCl₂ and KCaCl₃ in natural inclusions by Raman spectroscopy.// Chemical Geology, 2018. Vol. 493. P. 532–543. https://doi.org/10.1016/j.chemgeo.2018.07.017

 

4. A.Yu. Likhacheva, P.S.R. Prasad, D.S. Sarma, S.V. Goryainov, High-temperature Raman study of methane-rich melanophlogite up to 1000 °C: The framework stability on degassing.// Microporous and Mesoporous Materials, 2018. Vol. 266. P. 149–154. https://doi.org/10.1016/j.micromeso.2018.02.029

 

5. U. Borodina , A. Likhacheva , A. Golovin, S. Goryainov, S. Rashchenko, A. Korsakov, Raman spectra of shortite Na₂Ca₂(CO₃)₃ compressed up to 8 GPa.// High Pressure Research, 2018. Vol. 38, Iss. 3. P. 293-302. https://doi.org/10.1080/08957959.2018.1488973

 

6. S.V. Goryainov, A.Yu. Likhacheva, N.N. Ovsyuk. Raman scattering in lonsdaleite.// Journal of Experimental and Theoretical Physics, 2018, Vol. 127, No. 1, pp. 20–24. DOI: 10.1134/S1063776118070051

 

7. N.N. Ovsyuk, S.V. Goryainov, A.Y. Likhacheva, Raman scattering in hexagonal diamond.// Bulletin of the Russian Academy of Sciences: Physics, 2018. Vol. 82, No. 7. P. 778–780.

 

8. A.V. Romanenko, S.V. Rashchenko, A.V. Kurnosov, L. Dubrovinsky, S.V. Goryainov, A.Yu. Likhacheva, K.D. Litasov, Single-standard method for simultaneous pressure and temperature estimation using Sm²⁺:SrB₄O₇ fluorescence.// Journal of Applied Physics, 2018. Vol. 124. P. 165902-1 – 165902-6. https://doi.org/10.1063/1.5046144

 

9. L.I. Isaenko, K.E. Korzhneva, S.V. Goryainov, A.A. Goloshumova, L.A. Sheludyakova, V.L. Bekenev, O.Y. Khyzhun, Structural, optical and electronic properties of K₂Ba(NO₃)₄ crystal.// Physica B: Condensed Matter, 2018. Vol. 531. P. 149–158. https://doi.org/10.1016/j.physb.2017.12.035

 

10. Goryainov S.V., Borodina U.O. High pressure Raman study of laumontite overhydration in different water-containing media.// Siberian Journal of Physics, 2018, vol. 13, no. 4, p. 131–137. (in Russian)

DOI 10.25205/ 2541-9447-2018-13-4-131-137

 

11. Moroz T.N., Goryainov S.V., Ponomarchuk V.A. Structural peculiarities of natural carbonaceous materials: Raman spectroscopy data.// Siberian Journal of Physics, 2018, vol. 13, no. 4, p. 126–130. (in Russian)

DOI 10.25205/2541-9447-2018-13-4-126-130

                                                                2019

1. N.N. Ovsyuk, S.V. Goryainov, A.Y. Likhacheva. Raman scattering of impact diamonds.// Diamond & Related Materials. 2019. V. 91. P. 207–212. https://doi.org/10.1016/j.diamond.2018.11.017

2. J.S. Tse, Y.Pan, S.V. Goryainov, A.Yu. Likhacheva. X-Ray diffraction study of chrysotile compressed in water under high P–T conditions of up to 8 GPa and 420 °С.// Bulletin of the Russian Academy of Sciences: Physics, 2019, vol.83, No. 6, pp. 687–690.

3. A.Yu. Likhacheva, S.V. Goryainov, S.V. Rashchenko, O.G. Safonov. Peculiarities of serpentine decomposition in the presence of alkaline chloride: Raman study at high pressure and temperature// Bulletin of the Russian Academy of Sciences: Physics, 2019, vol. 83, No. 6, pp. 680-682.

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