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Natalia Dubrovinskaia

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Natalia Dubrovinskaia
Born (1961-02-18) 18 February 1961 (age 63)
Academic background
EducationMoscow State University (MSc, PhD)
Academic work
DisciplineGeology
Sub-disciplineCrystallography
InstitutionsUniversity of Bayreuth
Heidelberg University

Natalia Dubrovinskaia (born 18 February 1961) is a Swedish geologist of Russian origin.

Education

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In 1983, Natalia Dubrovinskaia earned a Master of Science degree in geochemistry from Moscow State University and she received her PhD in crystallography and crystal physics at the same institution 6 years later. Working as a senior researcher fellow until 2007, she finished the Habilitation of crystallography and Umhabilitation the following year at University of Bayreuth, Germany.[1][2] In 2011, she had worked as a staff scientist at the University of Heidelberg.

Career

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Dubrovinskaia was a research fellow at the Ministry of Geology and a post-doctoral researcher at Uppsala University.

In 2005, Dubrovinskaia led a team of researchers from the University of Bayreuth who were reported to have produced aggregated diamond nanorods from fullerene under high temperatures and pressures.[3][4][5] Two years earlier, large samples of nanodiamond were produced in a cheaper way (from graphite) and discovered to be harder than diamond by Japanese researchers.[6] Dubrovinskaia worked at the Heidelberg University in Germany as a Privatdozent and senior scientist from 2007 to 2011.

Since then, Natalia Dubrovinskaia returns to University of Bayreuth and employed as Professor of Materials Physics and Technology at Extreme Conditions.[1][2]

Natalia Dubrovinskaia is currently the Editor-in-chief for the International Journal of Materials and Chemistry[7]

Natalia Dubrovinskaia is currently the Editor-in-chief for the International Journal of Materials and Chemistry[7]

Personal life

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Dubrovinskaia is married to Leonid Dubrovinsky, a geoscientist at University of Bayreuth.[8] Together both her and her husband have been working as a scientific couple for the past four decades.

Research

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Throughout the career of Professor Dubrovinskaia, she has published over 222 papers cover a variety of topics but mostly focus on Crystallography, Diamond anvil cell, Analytical chemistry, Diffraction and Diamond.[9] Her extensive research in the field of biology encompasses various subjects, such as X-ray crystallography, Bulk modulus, and Boron. Additionally, her investigation using Diamond anvil cell focuses on areas like Mineralogy, specifically related to Mantle and Stishovite, as well as Thermodynamics, which has connections to fields like Core. Her works in Analytical chemistry encompasses Ab initio quantum chemistry methods and Ambient pressure, while her Diffraction study integrates various areas including Elasticity, Phase transition, Single crystal, Synchrotron, and Isostructural. Her investigation delves into the correlation between Diamond and topics such as Chemical engineering, which intersect with challenges in Metal-related issues. She has also done research into a new method of synthesising rare earth-metal compounds. In this research her main area of focus was on exploring the intriguing reactivity of alkali halides, like common table salt NaCl, when subjected to high pressure in the presence of rare-earth metals such as Yttrium and Dysprosium.[10]

Publications

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Natalia Dubrovinskaia has been an author or affiliate of these publications:

Year Date Publication title
2000 December 18 Absence of a pressure-induced structural phase transition in Ti3Al up to 25 GPa[11]
2001 May 21 Pressure-Induced Invar Effect in Fe-Ni Alloys[12]
2001 December 7 Experimental and Theoretical Identification of a New High-Pressure TiO2 Polymorph[13]
2004 May 17 Titanium metal at high pressure: Synchrotron experiments and ab initio calculations[14]
2004 September 2 Cubic TiO2 as a potential light absorber in solar-energy conversion[15]
2004 December 1 High-pressure and high-temperature synthesis of the cubic TiO2 polymorph[16]
2005 March 24 Structural characterization of the hard fullerite phase obtained at 13GPa and 830K[17]
2005 December 8 Beating the Miscibility Barrier between Iron Group Elements and Magnesium by High-Pressure Alloying[18]
2007 January 25 Noblest of All Metals Is Structurally Unstable at High Pressure[19]
2007 October 19 Pure Iron Compressed and Heated to Extreme Conditions[20]
2009 May 7 Superhard Semiconducting Optically Transparent High Pressure Phase of Boron[21]
2010 November 18 Pressure-induced isostructural phase transformation in γ-B28[22]
2011 April 21 Impact of lattice vibrations on equation of state of the hardest boron phase[23]
2011 May 25 Electron-Deficient and Polycenter Bonds in the High-Pressure γ−B28 Phase of Boron[24]
2011 October 17 Missing-atom structure of diamond Σ5 (001) twist grain boundary[25]
2013 July 29 Experimental evidence of orbital order in α-B12 and γ-B28 polymorphs of elemental boron[26]
2013 October 7 Discovery of a Superhard Iron Tetraboride Superconductor[27]
2013 November 19 High-pressure behavior of structural, optical, and electronic transport properties of the golden Th2S3-type Ti2O3[28]
2014 January 15 Role of Disorder in the Thermodynamics and Atomic Dynamics of Glasses[29]
2014 February 24 Peierls distortion, magnetism, and high hardness of manganese tetraboride[30]
2016 May 26 Pressure-induced crossing of the core levels in 5d metals[31]
2017 May 16 Nonicosahedral boron allotrope synthesized at high pressure and high temperature[32]
2018 June 8 Breakdown of Magnetic Order in the Pressurized Kitaev Iridate β−Li2IrO3[33]
2019 July 17 Pressure-Induced Hydrogen-Hydrogen Interaction in Metallic FeH Revealed by NMR[34]
2019 September 23 Improving resolution of solid state NMR in dense molecular hydrogen[35]
2019 October 23 No evidence of isostructural electronic transitions in compressed hydrogen[36]
2020 N/A Materials synthesis and crystallography at extreme pressure-temperature conditions revealing remarkable materials properties[37]
2020 May 28 High-Pressure Polymeric Nitrogen Allotrope with the Black Phosphorus Structure[38]
2020 October 8 Proton mobility in metallic copper hydride from high-pressure nuclear magnetic resonance[39]
2020 October 15 Novel sulfur hydrides synthesized at extreme conditions[40]
2021 March 12 Revealing the Complex Nature of Bonding in the Binary High-Pressure Compound FeO2[41]
2021 April 26 High-Pressure Synthesis of Dirac Materials: Layered van der Waals Bonded BeN4 Polymorph[42]
2021 September 22 Novel High-Pressure Yttrium Carbide γ−Y4C5 Containing [C2] and Nonlinear [C3] Units with Unusually Large Formal Charges[43]
2022 February 14 High-pressure Na3(N2)4, Ca3(N2)4, Sr3(N2)4, and Ba(N2)3 featuring nitrogen dimers with noninteger charges and anion-driven metallicity[44]
2022 October 1 Domain Auto Finder (DAFi) program: the analysis of single-crystal X-ray diffraction data from polycrystalline samples[45]
2022 November 18 Tin weathering experiment  set by nature for 300 years: natural crystals of the anthropogenic mineral hydroromarchite from Creussen, Bavaria, Germany[46]
2023 January 9 High-pressure hP3 yttrium allotrope with CaHg2-type structure as a prototype of the hP3 rare-earth hydride series[47]

Awards and Positions

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Year Award Title and Information
1989 Recognized with an innovation award from the USSR's Ministry of Geology
2005 Coordinated the ESF Exploratory Workshop on Novel Superhard Materials
2006 Contributed as Guest Editor for a Special Issue of the High Pressure Research International Journal
Since 2006 Reviewing actively for prestigious organizations such as the Swedish Research Council (VR), the German Research Foundation (DFG), the Danish Council for Independent Research (DCIR), the European Science Foundation (ESF), the National Science Foundation (NSF), the Research Council of Lithuania, the Danish Council for Independent Research (DCIR), the State National Science Award Commission (SNSAC of PRC), and the French National Research Agency (ANR)
Since 2006 Served as a Member of the American Physical Society (APS), German Physical Society (DPG), German Crystallographic Society (DGK), and the European Crystallographic Association (ECA)
2011 Acted as Guest Editor for a Special Issue of the International Journal Materials
2012-14 Held the position of Chief Editor of the International Journal of Materials and Chemistry
2013-16 Contributed as a Peer Review Panel Member for the Diamond Light Source in the UK          
2014 Presented as Speaker for the Organizing Committee for the International Year of Crystallography at the University of Bayreuth
2014 Participated actively at the 52nd European High Pressure Research Group International Meeting as a member of the International Advisory Committee
2016 Organized and chaired the 54th EHPRG International Meeting of High Pressure Science and Technology in Bayreuth, Germany
2016 Contributed as Guest Editor for the High Pressure Research International Journal's special issue titled "Advances in High Pressure Science and Technology"
2016-18 Served as a Member of the European Synchrotron Radiation Facilities' Beam Time Allocation Panel C05
Since 2016 Contributed as a Member of the Scientific Reports Editorial Board at Nature Publishing Group, specializing in Chemical Physics
2017 Participated as a Member in the evaluation panel for the Swedish Research Council's 2017 call in the natural and engineering sciences in Sweden
2018 Played a role as a Participant in the assessment review board for the Leibniz Institute for Crystal Growth (IKZ) in Berlin, Germany
2018 Invited as the Convener for the subtheme "Unconventional Syntheses of Inorganic Solids" at the 7th EuCheMS Chemistry Congress hosted by the Royal Society of Chemistry (RSC) in Liverpool, UK
2019 Contributed as a Fellow Visiting Professor at the Laboratory of Geosciences Environment, Observatoire Midi-Pyrénées, Toulouse, France
2019 Honored to be a member of the International Union of Crystallography's (IUCr) Ewald Prize 2020 Selection Committee

[48]

References

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  1. ^ a b Bayreuth, Universität. "Prof. Dr. Dr. h. c. Natalia Dubrovinskaia". www.dubrovinskaia.uni-bayreuth.de. Retrieved 2022-07-21.
  2. ^ a b "Prof. Dr. Dr. h. c. Natalia Dubrovinskaia". orcid.org. Retrieved 2023-10-05.
  3. ^ Knight W. (30 August 2005). "Nano-material is harder than diamonds". New Scientist. Retrieved 2009-01-18.
  4. ^ Jeandron M. (26 August 2005). "Diamonds are not forever". Physics World. Retrieved 2009-01-18.
  5. ^ Dubrovinskaia N.; Dubrovinsky L.; Crichton W.; Langenhorst F.; Richter A. (2005). "Aggregated diamond nanorods, the densest and least compressible form of carbon". Applied Physics Letters. 87 (8): 083106. Bibcode:2005ApPhL..87h3106D. doi:10.1063/1.2034101.
  6. ^ Irifune T.; Kurio A.; Sakamoto S.; Inoue T.; Sumiya H. (2003). "Materials: Ultrahard polycrystalline diamond from graphite". Nature. 421 (6923): 599–600. Bibcode:2003Natur.421..599I. doi:10.1038/421599b. PMID 12571587. S2CID 52856300.
  7. ^ a b "Scientific & Academic Publishing: Articles". www.sapub.org. Retrieved 2023-10-06.
  8. ^ "Leonid Dubrovinsky - geoscientist at the University of Bayreuth (Germany) and ESRF user | Lightsources". 2016-08-20. Archived from the original on 2016-08-20. Retrieved 2022-07-21.
  9. ^ "Web of Science". www.webofscience.com. Retrieved 2023-10-06.
  10. ^ Evans, Bree (December 12, 2023). "Paper by Natalia Dubrovinskaia highlighted as an editor favourite at Communications Chemistry, a Nature journal".
  11. ^ Dubrovinskaia, N. A.; Vennström, M.; Abrikosov, I. A.; Ahuja, R.; Ravindran, P.; Andersson, Y.; Eriksson, O.; Dmitriev, V.; Dubrovinsky, L. S. (2000-12-18). "Absence of a pressure-induced structural phase transition in ${\mathrm{Ti}}_{3}\mathrm{Al}$ up to 25 GPa". Physical Review B. 63 (2): 024106. doi:10.1103/PhysRevB.63.024106.
  12. ^ Dubrovinsky, Leonid; Dubrovinskaia, Natalia; Abrikosov, Igor A.; Vennström, Marie; Westman, Frank; Carlson, Stefan; van Schilfgaarde, Mark; Johansson, Börje (2001-05-21). "Pressure-Induced Invar Effect in Fe-Ni Alloys". Physical Review Letters. 86 (21): 4851–4854. Bibcode:2001PhRvL..86.4851D. doi:10.1103/PhysRevLett.86.4851. PMID 11384364.
  13. ^ Dubrovinskaia, Natalia A.; Dubrovinsky, Leonid S.; Ahuja, Rajeev; Prokopenko, Vitaly B.; Dmitriev, V.; Weber, H.-P.; Osorio-Guillen, J. M.; Johansson, Börje (2001-12-07). "Experimental and Theoretical Identification of a New High-Pressure ${\mathrm{TiO}}_{2}$ Polymorph". Physical Review Letters. 87 (27): 275501. doi:10.1103/PhysRevLett.87.275501. PMID 11800890.
  14. ^ Ahuja, Rajeev; Dubrovinsky, Leonid; Dubrovinskaia, Natalia; Guillen, J. M. Osorio; Mattesini, Maurizio; Johansson, Börje; Le Bihan, Tristan (2004-05-17). "Titanium metal at high pressure: Synchrotron experiments and ab initio calculations". Physical Review B. 69 (18): 184102. Bibcode:2004PhRvB..69r4102A. doi:10.1103/PhysRevB.69.184102.
  15. ^ Mattesini, M.; de Almeida, J. S.; Dubrovinsky, L.; Dubrovinskaia, N.; Johansson, B.; Ahuja, R. (2004-09-02). "Cubic ${\mathrm{TiO}}_{2}$ as a potential light absorber in solar-energy conversion". Physical Review B. 70 (11): 115101. doi:10.1103/PhysRevB.70.115101.
  16. ^ Mattesini, M.; de Almeida, J. S.; Dubrovinsky, L.; Dubrovinskaia, N.; Johansson, B.; Ahuja, R. (2004-12-01). "High-pressure and high-temperature synthesis of the cubic $\mathrm{Ti}{\mathrm{O}}_{2}$ polymorph". Physical Review B. 70 (21): 212101. doi:10.1103/PhysRevB.70.212101.
  17. ^ Talyzin, A. V.; Langenhorst, F.; Dubrovinskaia, N.; Dub, S.; Dubrovinsky, L. S. (2005-03-24). "Structural characterization of the hard fullerite phase obtained at $13\phantom{\rule{0.3em}{0ex}}\mathrm{GPa}$ and $830\phantom{\rule{0.3em}{0ex}}\mathrm{K}$". Physical Review B. 71 (11): 115424. doi:10.1103/PhysRevB.71.115424.
  18. ^ Dubrovinskaia, N.; Dubrovinsky, L.; Kantor, I.; Crichton, W. A.; Dmitriev, V.; Prakapenka, V.; Shen, G.; Vitos, L.; Ahuja, R.; Johansson, B.; Abrikosov, I. A. (2005-12-08). "Beating the Miscibility Barrier between Iron Group Elements and Magnesium by High-Pressure Alloying". Physical Review Letters. 95 (24): 245502. Bibcode:2005PhRvL..95x5502D. doi:10.1103/PhysRevLett.95.245502. PMID 16384393.
  19. ^ Dubrovinsky, L.; Dubrovinskaia, N.; Crichton, W. A.; Mikhaylushkin, A. S.; Simak, S. I.; Abrikosov, I. A.; de Almeida, J. S.; Ahuja, R.; Luo, W.; Johansson, B. (2007-01-25). "Noblest of All Metals Is Structurally Unstable at High Pressure". Physical Review Letters. 98 (4): 045503. Bibcode:2007PhRvL..98d5503D. doi:10.1103/PhysRevLett.98.045503. PMID 17358786.
  20. ^ Mikhaylushkin, A. S.; Simak, S. I.; Dubrovinsky, L.; Dubrovinskaia, N.; Johansson, B.; Abrikosov, I. A. (2007-10-19). "Pure Iron Compressed and Heated to Extreme Conditions". Physical Review Letters. 99 (16): 165505. Bibcode:2007PhRvL..99p5505M. doi:10.1103/PhysRevLett.99.165505. PMID 17995267.
  21. ^ Zarechnaya, E. Yu.; Dubrovinsky, L.; Dubrovinskaia, N.; Filinchuk, Y.; Chernyshov, D.; Dmitriev, V.; Miyajima, N.; El Goresy, A.; Braun, H. F.; Van Smaalen, S.; Kantor, I.; Kantor, A.; Prakapenka, V.; Hanfland, M.; Mikhaylushkin, A. S. (2009-05-07). "Superhard Semiconducting Optically Transparent High Pressure Phase of Boron". Physical Review Letters. 102 (18): 185501. Bibcode:2009PhRvL.102r5501Z. doi:10.1103/PhysRevLett.102.185501. PMID 19518885.
  22. ^ Zarechnaya, Evgeniya; Dubrovinskaia, Natalia; Caracas, Razvan; Merlini, Marco; Hanfland, Michael; Filinchuk, Yaroslav; Chernyshov, Dmitry; Dmitriev, Vladimir; Dubrovinsky, Leonid (2010-11-18). "Pressure-induced isostructural phase transformation in $\ensuremath{\gamma}{\text{-B}}_{28}$". Physical Review B. 82 (18): 184111. doi:10.1103/PhysRevB.82.184111.
  23. ^ Isaev, E. I.; Simak, S. I.; Mikhaylushkin, A. S.; Vekilov, Yu. Kh.; Zarechnaya, E. Yu.; Dubrovinsky, L.; Dubrovinskaia, N.; Merlini, M.; Hanfland, M.; Abrikosov, I. A. (2011-04-21). "Impact of lattice vibrations on equation of state of the hardest boron phase". Physical Review B. 83 (13): 132106. Bibcode:2011PhRvB..83m2106I. doi:10.1103/PhysRevB.83.132106.
  24. ^ Mondal, Swastik; van Smaalen, Sander; Schönleber, Andreas; Filinchuk, Yaroslav; Chernyshov, Dmitry; Simak, Sergey I.; Mikhaylushkin, Arkady S.; Abrikosov, Igor A.; Zarechnaya, Evgeniya; Dubrovinsky, Leonid; Dubrovinskaia, Natalia (2011-05-25). "Electron-Deficient and Polycenter Bonds in the High-Pressure $\ensuremath{\gamma}\mathrm{\text{\ensuremath{-}}}{\mathrm{B}}_{28}$ Phase of Boron". Physical Review Letters. 106 (21): 215502. doi:10.1103/PhysRevLett.106.215502. PMID 21699313.
  25. ^ Steneteg, Peter; Chirita, Valeriu; Dubrovinskaia, Natalia; Dubrovinsky, Leonid; Abrikosov, Igor A. (2011-10-17). "Missing-atom structure of diamond $\ensuremath{\Sigma}$5 (001) twist grain boundary". Physical Review B. 84 (14): 144112. doi:10.1103/PhysRevB.84.144112.
  26. ^ Mondal, Swastik; van Smaalen, Sander; Parakhonskiy, Gleb; Prathapa, Siriyara Jagannatha; Noohinejad, Leila; Bykova, Elena; Dubrovinskaia, Natalia; Chernyshov, Dmitry; Dubrovinsky, Leonid (2013-07-29). "Experimental evidence of orbital order in $\ensuremath{\alpha}$-B${}_{12}$ and $\ensuremath{\gamma}$-B${}_{28}$ polymorphs of elemental boron". Physical Review B. 88 (2): 024118. doi:10.1103/PhysRevB.88.024118.
  27. ^ Gou, Huiyang; Dubrovinskaia, Natalia; Bykova, Elena; Tsirlin, Alexander A.; Kasinathan, Deepa; Schnelle, Walter; Richter, Asta; Merlini, Marco; Hanfland, Michael; Abakumov, Artem M.; Batuk, Dmitry; Van Tendeloo, Gustaaf; Nakajima, Yoichi; Kolmogorov, Aleksey N.; Dubrovinsky, Leonid (2013-10-07). "Discovery of a Superhard Iron Tetraboride Superconductor". Physical Review Letters. 111 (15): 157002. arXiv:1304.5106. Bibcode:2013PhRvL.111o7002G. doi:10.1103/PhysRevLett.111.157002. PMID 24160619. S2CID 11906548.
  28. ^ Ovsyannikov, Sergey V.; Wu, Xiang; Garbarino, Gaston; Núñez-Regueiro, Manuel; Shchennikov, Vladimir V.; Khmeleva, Julia A.; Karkin, Alexander E.; Dubrovinskaia, Natalia; Dubrovinsky, Leonid (2013-11-19). "High-pressure behavior of structural, optical, and electronic transport properties of the golden Th${}_{2}$S${}_{3}$-type Ti${}_{2}$O${}_{3}$". Physical Review B. 88 (18): 184106. doi:10.1103/PhysRevB.88.184106.
  29. ^ Chumakov, A. I.; Monaco, G.; Fontana, A.; Bosak, A.; Hermann, R. P.; Bessas, D.; Wehinger, B.; Crichton, W. A.; Krisch, M.; Rüffer, R.; Baldi, G.; Carini Jr., G.; Carini, G.; D’Angelo, G.; Gilioli, E. (2014-01-15). "Role of Disorder in the Thermodynamics and Atomic Dynamics of Glasses". Physical Review Letters. 112 (2): 025502. Bibcode:2014PhRvL.112b5502C. doi:10.1103/PhysRevLett.112.025502. hdl:11572/173689. PMID 24484025. S2CID 5646081.
  30. ^ Gou, Huiyang; Tsirlin, Alexander A.; Bykova, Elena; Abakumov, Artem M.; Van Tendeloo, Gustaaf; Richter, Asta; Ovsyannikov, Sergey V.; Kurnosov, Alexander V.; Trots, Dmytro M.; Konôpková, Zuzana; Liermann, Hans-Peter; Dubrovinsky, Leonid; Dubrovinskaia, Natalia (2014-02-24). "Peierls distortion, magnetism, and high hardness of manganese tetraboride". Physical Review B. 89 (6): 064108. arXiv:1312.6982. Bibcode:2014PhRvB..89f4108G. doi:10.1103/PhysRevB.89.064108. S2CID 118539274.
  31. ^ Tal, Alexey A.; Katsnelson, Mikhail I.; Ekholm, Marcus; Jönsson, H. Johan M.; Dubrovinsky, Leonid; Dubrovinskaia, Natalia; Abrikosov, Igor A. (2016-05-26). "Pressure-induced crossing of the core levels in $5d$ metals". Physical Review B. 93 (20): 205150. arXiv:1509.07433. Bibcode:2016PhRvB..93t5150T. doi:10.1103/PhysRevB.93.205150. S2CID 7424868.
  32. ^ Chuvashova, Irina; Bykova, Elena; Bykov, Maxim; Prakapenka, Vitali; Glazyrin, Konstantin; Mezouar, Mohamed; Dubrovinsky, Leonid; Dubrovinskaia, Natalia (2017-05-16). "Nonicosahedral boron allotrope synthesized at high pressure and high temperature". Physical Review B. 95 (18): 180102. arXiv:1702.03804. Bibcode:2017PhRvB..95r0102C. doi:10.1103/PhysRevB.95.180102.
  33. ^ Majumder, M.; Manna, R. S.; Simutis, G.; Orain, J. C.; Dey, T.; Freund, F.; Jesche, A.; Khasanov, R.; Biswas, P. K.; Bykova, E.; Dubrovinskaia, N.; Dubrovinsky, L. S.; Yadav, R.; Hozoi, L.; Nishimoto, S. (2018-06-08). "Breakdown of Magnetic Order in the Pressurized Kitaev Iridate $\ensuremath{\beta}\text{\ensuremath{-}}{\mathrm{Li}}_{2}{\mathrm{IrO}}_{3}$". Physical Review Letters. 120 (23): 237202. arXiv:1802.06819. doi:10.1103/PhysRevLett.120.237202. PMID 29932706. S2CID 49386986.
  34. ^ Meier, Thomas; Trybel, Florian; Khandarkhaeva, Saiana; Steinle-Neumann, Gerd; Chariton, Stella; Fedotenko, Timofey; Petitgirard, Sylvain; Hanfland, Michael; Glazyrin, Konstantin; Dubrovinskaia, Natalia; Dubrovinsky, Leonid (2019-07-17). "Pressure-Induced Hydrogen-Hydrogen Interaction in Metallic FeH Revealed by NMR". Physical Review X. 9 (3): 031008. arXiv:1902.03182. Bibcode:2019PhRvX...9c1008M. doi:10.1103/PhysRevX.9.031008.
  35. ^ "Improving resolution of solid state NMR in dense molecular hydrogen". scholar.google.com.hk. Retrieved 2023-12-08.
  36. ^ "No evidence of isostructural electronic transitions in compressed hydrogen". scholar.google.com.hk. 23 October 2019. Retrieved 2023-12-08.
  37. ^ "Materials synthesis and crystallography at extreme pressure-temperature conditions revealing remarkable materials properties". scholar.google.com.hk. Retrieved 2023-12-08.
  38. ^ Laniel, Dominique; Winkler, Bjoern; Fedotenko, Timofey; Pakhomova, Anna; Chariton, Stella; Milman, Victor; Prakapenka, Vitali; Dubrovinsky, Leonid; Dubrovinskaia, Natalia (2020-05-28). "High-Pressure Polymeric Nitrogen Allotrope with the Black Phosphorus Structure". Physical Review Letters. 124 (21): 216001. arXiv:2003.02758. Bibcode:2020PhRvL.124u6001L. doi:10.1103/PhysRevLett.124.216001. PMID 32530671. S2CID 212414928.
  39. ^ Meier, Thomas; Trybel, Florian; Criniti, Giacomo; Laniel, Dominique; Khandarkhaeva, Saiana; Koemets, Egor; Fedotenko, Timofey; Glazyrin, Konstantin; Hanfland, Michael; Bykov, Maxim; Steinle-Neumann, Gerd; Dubrovinskaia, Natalia; Dubrovinsky, Leonid (2020-10-08). "Proton mobility in metallic copper hydride from high-pressure nuclear magnetic resonance". Physical Review B. 102 (16): 165109. arXiv:2004.03952. Bibcode:2020PhRvB.102p5109M. doi:10.1103/PhysRevB.102.165109. S2CID 228947126.
  40. ^ Laniel, Dominique; Winkler, Bjoern; Bykova, Elena; Fedotenko, Timofey; Chariton, Stella; Milman, Victor; Bykov, Maxim; Prakapenka, Vitali; Dubrovinsky, Leonid; Dubrovinskaia, Natalia (2020-10-15). "Novel sulfur hydrides synthesized at extreme conditions". Physical Review B. 102 (13): 134109. Bibcode:2020PhRvB.102m4109L. doi:10.1103/PhysRevB.102.134109. S2CID 228944833.
  41. ^ Koemets, E.; Leonov, I.; Bykov, M.; Bykova, E.; Chariton, S.; Aprilis, G.; Fedotenko, T.; Clément, S.; Rouquette, J.; Haines, J.; Cerantola, V.; Glazyrin, K.; McCammon, C.; Prakapenka, V. B.; Hanfland, M. (2021-03-12). "Revealing the Complex Nature of Bonding in the Binary High-Pressure Compound ${\mathrm{FeO}}_{2}$". Physical Review Letters. 126 (10): 106001. arXiv:1905.05497. doi:10.1103/PhysRevLett.126.106001. PMID 33784165. S2CID 224814261.
  42. ^ Bykov, Maxim; Fedotenko, Timofey; Chariton, Stella; Laniel, Dominique; Glazyrin, Konstantin; Hanfland, Michael; Smith, Jesse S.; Prakapenka, Vitali B.; Mahmood, Mohammad F.; Goncharov, Alexander F.; Ponomareva, Alena V.; Tasnádi, Ferenc; Abrikosov, Alexei I.; Bin Masood, Talha; Hotz, Ingrid (2021-04-26). "High-Pressure Synthesis of Dirac Materials: Layered van der Waals Bonded ${\mathrm{BeN}}_{4}$ Polymorph". Physical Review Letters. 126 (17): 175501. arXiv:2010.15774. doi:10.1103/PhysRevLett.126.175501. PMID 33988447. S2CID 227840429.
  43. ^ Aslandukova, Alena; Aslandukov, Andrey; Yuan, Liang; Laniel, Dominique; Khandarkhaeva, Saiana; Fedotenko, Timofey; Steinle-Neumann, Gerd; Glazyrin, Konstantin; Dubrovinskaia, Natalia; Dubrovinsky, Leonid (2021-09-22). "Novel High-Pressure Yttrium Carbide $\ensuremath{\gamma}\text{\ensuremath{-}}{\mathrm{Y}}_{4}{\mathrm{C}}_{5}$ Containing [${\mathrm{C}}_{2}$] and Nonlinear [${\mathrm{C}}_{3}$] Units with Unusually Large Formal Charges". Physical Review Letters. 127 (13): 135501. doi:10.1103/PhysRevLett.127.135501. PMID 34623860. S2CID 238530037.
  44. ^ Laniel, Dominique; Winkler, Bjoern; Fedotenko, Timofey; Aslandukova, Alena; Aslandukov, Andrey; Vogel, Sebastian; Meier, Thomas; Bykov, Maxim; Chariton, Stella; Glazyrin, Konstantin; Milman, Victor; Prakapenka, Vitali; Schnick, Wolfgang; Dubrovinsky, Leonid; Dubrovinskaia, Natalia (2022-02-14). "High-pressure ${\mathrm{Na}}_{3}{({\mathrm{N}}_{2})}_{4},$ ${\mathrm{Ca}}_{3}{({\mathrm{N}}_{2})}_{4},$ ${\mathrm{Sr}}_{3}{({\mathrm{N}}_{2})}_{4},$ and $\mathrm{Ba}{({\mathrm{N}}_{2})}_{3}$ featuring nitrogen dimers with noninteger charges and anion-driven metallicity". Physical Review Materials. 6 (2): 023402. doi:10.1103/PhysRevMaterials.6.023402. S2CID 235166701.
  45. ^ "Domain Auto Finder (DAFi) program: the analysis of single-crystal X-ray diffraction data from polycrystalline samples". scholar.google.com.hk. Retrieved 2023-12-08.
  46. ^ "Tin weathering experiment set by nature for 300 years: natural crystals of the anthropogenic mineral hydroromarchite from Creussen, Bavaria, Germany". scholar.google.com.hk. Retrieved 2023-12-08.
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