Hi, I am Elena Boldyreva, My LiveDNA is 712.5985
 
   
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Dr. Elena Boldyreva
 
Highest Degree: Ph.D. in Physical Chemistry from Institute of Solid State Chemistry, Russia
 
Institute: Institute of Solid State Chemistry and Mechanochemistry, Russia
 
Area of Interest: Chemistry
  •   Physical Chemistry
  •   Chemical Technology
  •   Structural Chemistry
  •   Pharmaceutical Research
 
URL: http://livedna.org/712.5985
 
My SELECTED Publications
1:    Naumov, D.Y., M.I. Naumova, N.V. Kuratieva, E.V. Boldyreva and J.A. Howard, 2002. Copper (II) hypophosphite: The-and-forms at 270 and 100 K and the-form at 270 K. Acta Crystallographica Sect. C: Crystal Struc. Commun., 58: i55-i60.
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2:   Aree, T., H.B. Burgi, V.S. Minkov, E.V. Boldyreva, D. Chernyshov amd K.W. Tornroos, 2013. Dynamics and thermodynamics of crystalline polymorphs. 2. β-glycine, analysis of variable-temperature atomic displacement parameters. J. Phys. Chem. A, 117: 8001-8009.
3:   Arkhipov, S.G., B.A. Zakharov and E.V. Boldyreva, 2013. Semi-maleate salts of L-and DL-serinium: The first example of chiral and racemic serinium salts with the same composition and stoichiometry. Acta Crystallogr. C: Cryst. Struct. Commun., 69: 517-521.
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4:   Boldyrev, V.V., M.A. Vasilchenko, D.Y. Naumov, T.P. Shakhtshneider and E.V. Boldyreva, 1997. Etch pits morphology on P-hydroxyacetanilide single crystals. Solid State Ionics, 101-103: 869-874.
5:   Boldyrev, V.V., N.Z. Lyakhov, Y.T. Pavlyukhin, E.V. Boldyreva, E.Y. Ivanov and E.G. Avvakumov, 1990. Achievements and prospects in mechanochemistry. Sov. Sci. Rev. B Chem., 14: 105-161.
6:   Boldyreva, Е.V. and K.M. Salikhov, 1985. Monte-carlo simulation of solid state reactions. I. Kinetics and spatial propagation of an autoinhibitory reaction. Reactivity Solids, 1: 3-17.
7:   Boldyreva, Е.V., 1990. Feed-back in solid-state reactions. Reactivity Solids, 8: 269-282.
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8:   Boldyreva, Е.V., J. Kivikoski and J.A.K. Howard, 1997. Distortion of crystal structures of some CoIII ammine complexes. I. Distortion of crystal structure of [Co(NH3)5 NO2]Cl(NO3) on cooling. Acta Cryst., B53: 394-404.
9:   Boldyreva, E., 2007. High-pressure polymorphs of molecular solids: When are they formed, and when are they not? Some examples of the role of kinetic control. Crystal Growth Design, 7: 1662-1668.
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10:   Boldyreva, E., 2013. Mechanochemistry of inorganic and organic systems: What is similar, what is different? Chem. Soc. Rev., 42: 7719-7738.
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11:   Boldyreva, E.V. and A.A. Sidel'nikov, 1987. Effect of mechanical stresses on the photoisomerzation in the crystals of Co(III) nitropentaammines. Proceed. Sib. Dept. Acad. Sci. USSR, 5: 139-145.
12:   Boldyreva, E.V. and N.V. Podberezskaya, 1995. Crystal structure of the monoclinic polymorph of [Co(NH3)5 NO2]I2. J. Struct. Chem., 36: 168-177.
13:   Boldyreva, E.V. and N.Z. Lyakhov, 1984. Thermal decomposition of [Co(NH3)6]Cl3. I. Mass-spectrometry. Proceed. Sib. Dept. Acad. Sci. USSR, 2: 18-21.
14:   Boldyreva, E.V. and N.Z. Lyakhov, 1984. Thermal decomposition of [Co(NH3)6]Cl3. II. Effect of UV-irradiation on the thermal decomposition. Proceed. Sib. Dept. Acad. Sci. USSR, 2: 21-23.
15:   Boldyreva, E.V., 1987. Monte carlo simulation of solid-state reactions: II. Reactivity distribution of the reacting sites. Reactivity Solids, 3: 185-203.
16:   Boldyreva, E.V., 1987. Monte-carlo simulation of solid state reactions. III. Kinetics and spatial propagation of autocatalytic reactions. Reactivity Solids, 3: 205-225.
17:   Boldyreva, E.V., 1987. Problems of the reliability of kinetic data evaluated by thermal analysis. Thermochim. Acta, 110: 107-109.
18:   Boldyreva, E.V., 1992. The problem of Feed-back in solid-state chemistry. J. Therm. Analys, 38: 89-97.
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19:   Boldyreva, E.V., 1994. Intramolecular linkage isomerization in the crystals of some Co (III)-ammine Complexes-a link between inorganic and organic solid state chemistry. Mol. Crystals Liquid Crystals, 242: 17-52.
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20:   Boldyreva, E.V., 1997. The concept of the reaction cavity: A link between solution and Solid-state chemistry. Solid State Ionics, 101-103: 843-849.
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21:   Boldyreva, E.V., 2001. Structural aspects of intramolecular solid-state linkage isomerization in Co (III) pentaammine nitro/nitrito complexes. Russ. J. Coord Chem., 27: 1-28.
22:   Boldyreva, E.V., 2003. Anisotropy of Pressure-induced structural distortion of molecular crystals. J. Mol. Struct., 647: 159-179.
23:   Boldyreva, E.V., 2003. High-pressure-induced structural changes in molecular crystals preserving the space group symmetry: Anisotropic distortion/isosymmetric polymorphism. Crystal Eng., 6: 235-254.
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24:   Boldyreva, E.V., 2004. High pressure and supramolecular systems. Russ. Chem. Bull., 53: 1369-1378.
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25:   Boldyreva, E.V., 2004. High-pressure studies of the hydrogen bond networks in molecular crystals. J. Mol. Structure, 700: 151-155.
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26:   Boldyreva, E.V., 2006. High-pressure studies of crystalline amino acids and simple peptides. Proceedings of the 4th International Conference on High Pressures in Biosciences and Biotechnology, Volume 1, September 25th-26th, 2006, J-STAGE, Tsukuba, Japan, pp: 28-46.
27:   Boldyreva, E.V., 2007. Between the diamond anvils. High pressure and molecular crystals. Sci. First Hand, 2: 78-85.
28:   Boldyreva, E.V., 2007. High-pressure diffraction studies of molecular organic solids. A personal view. Acta Crystallographica Sect. A: Found. Crystallography, 64: 218-231.
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29:   Boldyreva, E.V., 2009. Combined X-ray diffraction and Raman spectroscopy studies of phase transitions in crystalline amino acids at low temperatures and high pressures: Selected examples. Phase Trans., 82: 303-321.
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30:   Boldyreva, E.V., 2010. Molecules under stress. Nature (Rus.), 6: 3-12.
31:   Boldyreva, E.V., 2012. Supramolecular systems under extreme conditions. Herald Russ. Acad. of Sci., 82: 423-431.
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32:   Boldyreva, E.V., A.A. Sidelnikov, A.P. Chupakhin, N.Z. Lyakhov and V.V. Boldyrev, 1984. Deformation and fragmentation of crystals of [Co(NH3)5NO2]X2 (X=Cl-, Br-, NO3-) during photochemical linkage isomerization. Proceed. Acad. Sci. USSR, 277: 893-896.
33:   Boldyreva, E.V., D.Y. Naumov and H. Ahsbahs, 1998. Distortion of crystal structures of some CoIII ammine complexes. III. Distortion of crystal structure of [Co(NH3)5NO2] Cl2 at hydrostatic pressures up to 3.5 GPa. Acta Cryst. Sect. B: Struct. Sci., 54: 798-808.
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34:   Boldyreva, E.V., D.Y. Naumov and H. Ahsbahs, 1998. The role of Non-covalent interactions in the anisotropy of structural distortion of [Co(NH3)5 NO2]Cl2 at high pressures. J. Struct. Chem., 39: 433-447.
35:   Boldyreva, E.V., E.B. Burgina, V.P. Baltakhinov, L.P. Burleva, H. Ahsbahs, H. Uchtmann and V.E. Dulepov, 1992. Effect of high pressure on the infra-red spectra of solid nitro- and nitrito- cobalt (III) ammine complexes. Ber. Bunsengesell. Phys. Chem., 96: 931-937.
36:   Boldyreva, E.V., E.N. Kolesnik, T.N. Drebushchak, H. Ahsbahs, J.A. Beukes and H.P. Weber, 2005. A comparative study of the anisotropy of lattice strain inducedin the crystals of L-serine by cooling down to 100 Kor by increasing pressure up to 4.4 GPa. Zeitschrift Fur Kristallographi, 220: 58-65.
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37:   Boldyreva, E.V., E.N. Kolesnik, T.N. Drebushchak, H. Sowa, H. Ahsbahs and Y.V. Seryotkin, 2006. A comparative study of the anisotropy of lattice strain induced in the crystals of DL-serine by cooling down to 100 K, or by increasing pressure up to 8.6 GPa. Zeitschrift Fur Kristallographi, 221: 150-161.
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38:   Boldyreva, E.V., E.V. Kuz'mina and H. Ahsbahs, 1998. Anisotropy of Pressure-induced structural distortion of [Co(NH3)5 ONO]X2, X=Cl-, Br- at pressures up to 5,0 GPa. J. Struct. Chem., 39: 424-432.
39:   Boldyreva, E.V., H. Ahsbahs and H. Uchtmann, 1994. Pressure induced lattice distortion in some Co(III) - ammine complexes, [Co(NH3)5NO2]XY (XY = Cl2, Br2, Cl(NO3). Ber. Bunsengesell. Phys. Chem., 98: 738-745.
40:   Boldyreva, E.V., H. Ahsbahs and H.P. Weber, 2003. A comparative study of pressure-induced lattice strain of α- and γ-polymorphs of glycine. Z. Krist., 218: 231-236.
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41:   Boldyreva, E.V., H. Ahsbahs, D.Y. Naumov and A. Kutoglu, 1998. Pentaamminenitrocobalt (III) dichloride at pressures of 0.24, 0.52, 1.25, 1.91 and 3.38 GPa. Acta Cryst. Sect. C: Cryst. Struct. Commun., 54: 1378-1383.
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42:   Boldyreva, E.V., H. Ahsbahs, H. Uchtmann and N. Kashcheeva, 2000. Effects of pressure on the two polymorphs of [Co (NH3) 5NO2] I2: The anisotropy of lattice distortion and a phase transition. Int. J. High Pressure Res., 17: 79-99.
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43:   Boldyreva, E.V., H. Ahsbahs, V.V. Chernyshev, S.N. Ivashevskaya and A.R. Oganov, 2006. Effect of hydrostatic pressure on the crystal structure of sodium oxalate: X-ray diffraction study and ab initio simulations. Zeitschrift Fur Kristallographi, 221: 186-197.
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44:   Boldyreva, E.V., H. Sowa, Y.V. Seryotkin, T.N. Drebushchak, H. Ahsbahs, V. Chernyshev and V. Dmitriev, 2006. Pressure-induced phase transitions in crystalline l-serine studied by single-crystal and high-resolution powder X-ray diffraction. Chem. Phys. Lett., 429: 474-478.
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45:   Boldyreva, E.V., I.N. Timonova, E.A. Kravtsova and L.N. Mazalov, 1987. Electronic structure of Nitro-nitrito linkage isomers of Co(III) pentaammines studied by X-ray spectroscopy. J. Struct. Chem., 28: 68-76.
46:   Boldyreva, E.V., J. Kivikoski and J.A.K. Howard, 1997. Crystal structure of [Co(NH3)5NO2]Cl(NO3) at 290K and 150K. Acta Cryst. C, C53: 526-528.
47:   Boldyreva, E.V., J. Kivikoski and J.A.K. Howard, 1997. Crystal structures of [Co(NH3)5NO2]Cl2 and [Co(NH3)5NO2]Br2 at 290K and 150K. Acta Cryst. C, C53: 523-526.
48:   Boldyreva, E.V., J. Kivikoski and J.A.K. Howard, 1997. Distortion of crystal structures of some CoIII ammine complexes. II. Distortion of crystal structure of [Co(NH3)5 NO2]Cl(NO3 and [Co(NH3)5NO2]Br2 on cooling. Acta Cryst., B53: 405-414.
49:   Boldyreva, E.V., M.I. Tatarintceva and N.Z. Lyakhov, 1984. Thermal decomposition of [Co(NH3)6]Cl3. III. Electron microscopy. Proceed. Sib. Dept. Acad. Sci. USSR, 2: 24-31.
50:   Boldyreva, E.V., N.V. Podberezskaya, A.V. Virovets, L.P. Burleva and V.E. Dulepov, 1993. X-ray powder diffraction study of linkage Nitro-nitrito isomerization in [Co(NH3)5NO2]XY - [Co(NH3)5ONO]XY (XY = 2Cl-, 2Br-, 2I-, Cl- (NO3) -, 2(NO3)-). J. Struct. Chem., 34: 128-138.
51:   Boldyreva, E.V., S.L. Kuzmina and H. Ahsbahs, 1998. Effect of hydrostatic pressure on the kinetics of solid-state linkage isomerization in [Co(NH3) 5ONO]Br2. J. Struct. Chem., 39: 934-946.
52:   Boldyreva, E.V., S.L. Kuzmina, P.B. Novikov and H. Ahsbahs, 1999. Anisotropy of pressure-induced (up to 4 GPa) structural distortion of [Co(NH3) 5NO2]C2O4. J. Struct. Chem., 40: 1149-1154.
53:   Boldyreva, E.V., S.N. Ivashevskaya, H. Sowa, H. Ahsbahs and H.P. Weber, 2005. Effect of hydrostatic pressure on the γ-polymorph of glycine. 1. A polymorphic transition into a new δ-form. Zeitschrift Fur Kristallographi, 220: 50-57.
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54:   Boldyreva, E.V., S.N. Ivashevskaya, H. Sowa, H. Ahsbahs and H.P. Weber, 2004. Effect of high pressure on crystalline glycine: A new high-pressure polymorph. Doklady Phys. Chem., 396: 111-114.
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55:   Boldyreva, E.V., S.N. Ivashevskaya, H. Sowa, H. Ahsbahs and H.P. Weber, 2004. Effect of hydrostatic pressure on the γ-polymorph of glycine: A phase transition. Mater. Struc., 11: 37-39.
56:   Boldyreva, E.V., S.V. Goryainov, V.S. Yu, H. Ahsbahs and V.P. Dmitriev, 2007. Pressure-induced phase transitions in the crystals of beta-alanine. Proc. NSU Ser. Phys., 2: 30-35.
57:   Boldyreva, E.V., T.N. Drebushchak and E.S. Shutova, 2003. Structural distortion of the α, β and γ polymorphs of glycine on cooling. Zeitschrift Fur Kristallographi, 218: 366-376.
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58:   Boldyreva, E.V., T.N. Drebushchak, T.P. Shakhtshneider, H. Sowa and H. Ahsbahs et al., 2004. Variable-temperature and Variable-pressure studies of Small-molecule organic crystals. Arkivoc, 12: 128-155.
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59:   Boldyreva, E.V., T.P. Shakhtshneider, H. Ahsbahs, H. Sowa and H. Uchtmann, 2000. A comparative study of the effect of hydrostatic pressure up to 4 GPa on the monoclinic and the orthorhombic polymorphs of paracetamol. J. Thermal Anal. Calorimetry, 68: 437-452.
60:   Boldyreva, E.V., T.P. Shakhtshneider, H. Ahsbahs, H. Sowa and H. Uchtmann, 2002. Effect of pressure on the crystals of sodium oxalate: Anisotropic structural distortion and a polymorphic transition. J. Struct. Chem., 43: 107-113.
61:   Boldyreva, E.V., T.P. Shakhtshneider, H. Ahsbahs, H. Uchtmann, E.B. Burgina and V.P. Baltakhinov, 2002. The role of hydrogen bonds in the pressure-induced structural distortion of 4-hydroxyacetanilide crystals. Polish J. Chem., 76: 1333-1346.
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62:   Boldyreva, E.V., T.P. Shakhtshneider, M.A. Vasilchenko, H. Ahsbahs and H. Uchtmann, 2000. Anisotropic crystal structure distortion of the monoclinic polymorph of acetaminophen at high hydrostatic pressures. Acta Crystallographica Sect. B: Struc. Sci., 56: 299-309.
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63:   Boldyreva, E.V., V. Dmitriev and B.C. Hancock, 2006. Effect of pressure up to 5.5 GPa on dry powder samples of chlorpropamide form-A. Int. J. Pharm., 327: 51-57.
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64:   Boldyreva, E.V., V.A. Drebushchak, I.E. Paukov, Y.A. Kovalevskaya and T.N. Drebushchak, 2004. DSC and adiabatic calorimetry study of the polymorphs of paracetamol. J. Thermal Anal. Calorimetry, 77: 607-623.
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65:   Boldyreva, E.V., V.A. Drebushchak, T.N. Drebushchak I.E. Paukov, Y.A. Kovalevskaya and E.S. Shutova, 2003. Polymorphism of glycine, Part II. J. Thermal Anal. Calorimetry, 73: 419-428.
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66:   Boldyreva, E.V., V.A. Drebushchak, T.N. Drebushchak, I.E. Paukov, Y.A. Kovalevskaya and E.S. Shutova, 2003. Polymorphism of glycine, Part I. J. Thermal Anal. Calorimetry, 73: 409-418.
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67:   Boldyreva, E.V., Y.A. Chesalov, T.N. Drebushchak, E.N. Kolesnik and Y.A. Kovalevskaya et al., 2009. Phase transition at 204-250 K in the crystals of β-alanine: kinetically irreproduceable, or an artefact? Phase Trans., 82: 497-506.
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68:   Bordallo, H.N., B.A. Kolesov, E.V. Boldyreva and F. Juranyi, 2007. Different dynamics of chiral and racemic (L-and DL-) serine crystals: Evidenced by incoherent inelastic neutron and Raman scattering. J. Am. Chem. Soc., 129: 10984-10985.
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69:   Bordallo, H.N., B.A. Zakharov, E.V. Boldyreva, M.R. Johnson, M.M. Koza, T. Seydel and J. Fischer, 2012. Application of incoherent inelastic neutron scattering in pharmaceutical analysis: Relaxation dynamics in phenacetin. Mol. Pharm., 9: 2434-2441.
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70:   Bordallo, H.N., E.V. Boldyreva, B. Alexandra, M.K. Michael and L. Sven, 2008. Dynamic properties of the polymorphs of glycine: An incoherent inelastic neutron scattering study. J. Phys. Chem., 112: 8748-8759.
71:   Bordallo, H.N., E.V. Boldyreva, J. Fischer, M.M. Koza and T. Seydel et al., 2010. Observation of subtle dynamic transitions by a combination of neutron scattering, X-ray diffraction and DSC: A case study of the monoclinic l-cysteine. Biophys. Chem., 148: 34-41.
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72:   Burgina, E.B., V.P. Baltakhinov, E. Stoyanov, N. Zhanpeisov, E.V. Boldyreva and G.M. Zhidomirov, 1993. Effect of high pressure on the vibration spectrum of nitromethane molecules: changes in the kinematics of the vibrations as a result of the decrease in the distance between the molecules. J. Mol. Struct., 296: 53-59.
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73:   Burgina, E.B., V.P. Baltakhinov, E.V. Boldyreva and T.P. Shakhtschneider, 2004. IR spectra of paracetamol and phenacetin. 1. Theoretical and experimental studies. J. Struc. Chem., 45: 64-73.
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74:   Chernobay, G.B., A.C. Yu, E.B. Burgina, T.N. Drebushchak and E.V. Boldyreva, 2007. Variable-temperature IR-spectroscopy studies of crystalline amino acids, dipeptides and polyaminoacids. I. Polymorphs of glycine. J. Struct. Chem., 48: 339-347.
75:   Chernobay, G.B., Y.А. Chesalov and Е.V. Boldyreva, 2009. An FT-IR study of the effect of temperature on the crystal structures of amino acids, peptides and polyaminoacids. V. α-serylglycine. J. Struct. Chem., 6: 1108-1114.
76:   Chesalov, Y.A., G.B. Chernobay and E.V. Boldyreva, 2008. Variable-temperature IR-spectroscopy studies of crystalline amino acids, dipeptides and polyaminoacids. II. L-serine and DL-serine. J. Struct. Chem., 49: 627-638.
77:   Chesalov, Y.A., G.B. Chernobay and E.V. Boldyreva, 2008. Variable-temperature IR-spectroscopy studies of crystalline amino acids, dipeptides and polyaminoacids. III. Glycilglycine. J. Struct. Chem., 49: 1012-1021.
78:   Chesalov, Y.A., V.P. Baltakhinov, T.N. Drebushchak, E.V. Boldyreva, N.V. Chukanov and V.A. Drebushchak, 2008. FT-IR and FT-Raman spectra of five polymorphs of chlorpropamide. Experimental study and ab initio calculations. J. Mol. Struct., 891: 75-86.
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79:   Drebushchak, Т.N., N.А. Pankrushina and Е.V. Boldyreva, 2011. A new type of polymorphic transitions in tolbutamide: An unusual low-temperature conformational ordering. Proc. RAS, 437: 507-510.
80:   Drebushchak, T.N. and E.V. Boldyreva, 2004. Variable temperature (100 - 360 К) single-crystal X-ray diffraction study of the orthorhombic polymorph of paracetamol (p-hydroxyacetanilide). Zeitschrift Fur Kristallographi, 219: 506-512.
81:   Drebushchak, T.N., A.A. Ogienko and E.V. Boldyreva, 2011. ''Hedvall effect'' in cryogrinding of molecular crystals. A case study of a polymorphic transition in chlorpropamide. Cryst. Eng. Comm., 13: 4405-4410.
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82:   Drebushchak, T.N., E.N. Kolesnik and E.V. Boldyreva, 2006. Variable temperature (100 - 295 К) single-crystal X-ray diffraction study of the α-polymorph of glycylglycine and a glycylglycine hydrate. Zeitschrift Fur Kristallographi, 221: 128-138.
83:   Drebushchak, T.N., E.V. Boldyreva and K. Fucke, 2013. Hydrogen bonding of catechol groups in the crystal structure of dihydrocaffeic acid. J. Struct. Chem., 54: 368-372.
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84:   Drebushchak, T.N., E.V. Boldyreva and M.A. Mikhailenko, 2008. Crystal structures of sulfathiazole polymorphs in the temperature range 100-295 K: A comparative analysis. J. Struct. Chem., 49: 90-100.
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85:   Drebushchak, T.N., E.V. Boldyreva, Y.V. Seretkin and E.S. Shutova, 2002. A structural study of the metastable β-polymorph of glycine and of the polymorphic β-α transition. J. Struc. Chem., 43: 892-900.
86:   Drebushchak, T.N., H. Sowa, Y.V. Seryotkin, E.V. Boldyreva and H. Ahsbahs, 2006. L-serine III at 8.0 GPa. Acta Crystall. E, 62: o4052-o4054.
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87:   Drebushchak, T.N., M.A. Mikhailenko, E.V. Boldyreva and T.P. Shakhtshneider, 2006. Monoclinic polymorph of the 1: 1 adduct of sulfathiazole with pyridine. Acta Crystall. E, 62: o2707-o2709.
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88:   Drebushchak, T.N., M.A. Mikhailenko, E.V. Boldyreva and T.P. Shakhtshneider, 2006. Tetragonal polymorph of the 1: 1 adduct of sulfathiazole with pyridine. Acta Crystall. E, 62: o2669-o2671.
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89:   Drebushchak, T.N., M.A. Mikhailenko, V.A. Drebushchak and E.V. Boldyreva, 2007. Synthesis and crystal structures of two polymorphs of sulfathiazole: Pyridine (1: 1) adducts. Struct. Chem., 18: 449-456.
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90:   Drebushchak, T.N., N.V. Chukanov and E.V Boldyreva, 2007. A new-polymorph of chlorpropamide: 4-chloro-N-(propylaminocarbonyl)-benzenesulfonamide. Acta Cryst. C, 63: o355-o357.
91:   Drebushchak, T.N., N.V. Chukanov and E.V. Boldyreva, 2006. A new polymorph of chlorpropamide: 4-chloro-N-(propylaminocarbonyl) benzenesulfonamide. Acta Crystall. E, 62: o4393-o4395.
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92:   Drebushchak, T.N., Y.A. Chesalov and E.V. Boldyreva, 2009. A conformational polymorphic transition in the high-temperature-form of chlorpropamide on cooling: A new-form. Acta Crystall. B, 65: 770-781.
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93:   Drebushchak, T.Y.N., E.V. Boldyreva and E.S. Shutova, 2002. Β-Glycine. Acta Crystallographica Sect. E: Struc. Rep. Online, 58: o634-o636.
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94:   Drebushchak, V.A., A.G. Ogienko and E.V. Boldyreva, 2013. Polymorphic effects at the eutectic melting in the H2O-glycine system. J. Therm. Anal. Calorim., 111: 2187-2194.
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95:   Drebushchak, V.A., E.V. Boldyreva, T.N. Drebushchak and E.S. Shutova, 2002. Synthesis and calorimetric investigation of unstable β-glycine. J. Crystal Growth, 241: 266-268.
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96:   Drebushchak, V.A., E.V. Boldyreva, Y.A. Kovalevskaya, I.E. Paukov and T.N. Drebushchak, 2005. Low-temperature heat capacity of β-polymorph of glycine and a phase transition at 252 K. J. Therm. Anal. Calorim., 79: 6336-6341.
97:   Drebushchak, V.A., T.N. Drebushchak, N.V. Chukanov and E.V. Boldyreva, 2008. Transitions among five polymorphs of chlorpropamide near the melting point. J. Thermal Anal. Calorimetry, 93: 343-351.
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98:   Drebushchak, V.A., T.N., Drebushchak and E.V. Boldyreva, 2013. New interpretation of heat effects in polymorphic transitions. J. Therm. Anal. Calorim., 113: 419-424.
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99:   Drebushchak, V.A., Y.A. Kovalevskaya, I.E. Paukov and E.V. Boldyreva, 2003. Low-temperature heat capacity of α and γ polymorphs of glycine. J. Thermal Anal. Calorimetry, 74: 109-120.
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100:   Drebushchak, V.A., Y.A. Kovalevskaya, I.E. Paukov and E.V. Boldyreva, 2006. Heat capacity of α-glycylglycine in a temperature range of 6 to 440 K. J. Thermal Anal. Calorimetry, 85: 485-490.
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101:   Drebushchak, V.A., Y.A. Kovalevskaya, I.E. Paukov and E.V. Boldyreva, 2007. Heat capacity of D-and DL-serine in a temperature range of 5.5 to 300 K. J. Thermal Anal. Calorimetry, 89: 649-654.
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102:   Drebushchak, V.A., Y.A. Kovalevskaya, I.E. Paukov and E.V. Boldyreva, 2008. Low-temperature heat capacity of diglycylglycine. J. Thermal Anal. Calorimetry, 93: 865-869.
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103:   Drebushchak,Т.N., V.A. Drebushchak and E.V. Boldyreva, 2011. Solid-state transformations in the β-form of chlorpropamide on cooling to 100 K. Acta Cryst. B, 67: 163-176.
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104:   Dulepov, V.E. and E.V. Boldyreva, 1994. A comparative study of the kinetics of solid state linkage isomerization [Co(NH3)5ONO]XY <-> [Co(NH3)5NO2]XY (XY = Cl2, Br2, I2, (NO3)2, Cl(NO3). React. Kinetics Catalys. Lett., 53: 289-296.
105:   Fucke, K., S.A. Myz, T.P. Shakhtshneider, E.V. Boldyreva and U.J. Griesser, 2012. How good are the crystallisation methods for co-crystals-A comparative study of Piroxicam. New J. Chem., 36: 1969-1977.
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106:   Goryainov, S.V., E.N. Kolesnik and E.V. Boldyreva, 2005. A reversible pressure-induced phase transition in β-glycine at 0.76 GPa. Physica B: Condensed Matter, 357: 340-347.
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107:   Goryainov, S.V., E.V. Boldyreva and E.N. Kolesnik, 2006. Raman observation of a new (ζ) polymorph of glycine? Chem. Phys. Lett., 419: 496-500.
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108:   Goryainov, S.V., E.V. Boldyreva, M.B. Smirnov, H. Ahsbahs, V.V. Chernyshev and H.P. Weber, 2003. Isosymmetric reversible phase transition in sodium oxalate at 3.8 GPa. Proc. RAS Doklady Phys. Chem., 390: 787-790.
109:   Gunbin, K.V., D.A. Afonnikov, E.V. Boldyreva and N.A. Kolchanov, 2009. Adaptive evolution of genes of archaea belonging to the genus Pyrococcus associated with adaptation to life under high-pressure conditions. Doklady Biochem. Biophys., 425: 91-93.
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110:   Kashcheeva, N.E., D.Y. Naumov and E.V. Boldyreva, 2010. Software for calculating Dirichlet domains and examples of its application for the analysis of crystal structures of cobalt(III)nitropentaammines. Zeitschrift fur Kristallographie, 214: 534-541.
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111:   Kolesnik, E.N., S.V. Goryainov and E.V. Boldyreva, 2005. Different behavior of L- and DL-serine crystals at high pressures: Phase transitions in L-serine and stability of the DL-serine structure. Doklady Chem., 404: 169-172.
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112:   Kolesov, B.A. and E.V. Boldyreva, 2007. Difference in the dynamic properties of chiral and racemic crystals of serine studied by Raman spectroscopy at 3-295 K. J. Phys. Chem. B, 111: 14387-14397.
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113:   Kolesov, B.A. and E.V. Boldyreva, 2010. Raman-spectroscopic study of L-alanine single crystals in the temperature range of 3-300 K. AIP Conf. Proc., 1267: 619-620.
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114:   Kolesov, B.A. and E.V. Boldyreva, 2010. Self‐trapped N-H vibrational states in the polymorphs of glycine, L‐and DL‐alanine. J. Raman Spectr., 41: 670-677.
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115:   Kolesov, B.A. and E.V. Boldyreva, 2011. Micro-conformational transitions in L-alanine single crystals revisited by low wavenumber Raman spectroscopy. J. Raman Spectrosc., 42: 696-705.
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116:   Kolesov, B.A. and E.V. Boldyreva, 2013. An interpretation of the Anomalous changes in the low‐Wavenumber range of the Raman spectra of L‐alanine crystals. ChemPhysChem., 14: 2525-2528.
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117:   Kolesov, B.A., M.A. Mikhailenko and E.V. Boldyreva, 2011. Dynamics of the intermolecular hydrogen bonds in the polymorphs of paracetamol in relation to crystal packing and conformational transitions: A variable-temperature polarized Raman spectroscopy study. Phys. Chem. Chem. Phys., 13: 14243-14253.
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118:   Losev, Е.А., М.А. Mikhailenko and Е.V. Boldyreva, 2011. Selective effect of carboxyllic acids on polymorphism of glycine and co-crystal formation. Proc. RAS Ser. Phys. Chem., 439: 1-5.
119:   Losev, E.A., B.A. Zakharov, T.N. Drebushchak and E.V. Boldyreva, 2011. Glycinium malonate and glycinium glutarate. New structures with short O-H...O hydrogen bonds: A salt and the first example of a glycine molecular co-crystal. Acta Cryst. C, 67: o297-o300.
120:   Losev, E.A., M.A. Mikhailenko, A.F. Achkasov and E.V. Boldyreva, 2013. The effect of carboxylic acids on glycine polymorphism, salt and co-crystal formation. A comparison of different crystallisation techniques. New J. Chem., 37: 1973-1981.
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121:   Malakhin, I.A., A.F. Achkasov, A.S. Ratushnyak, T.A. Zapara, A.L. Markel, E.V. Boldyreva and A.V.V. Boldyrev, 2012. Different effects of α- and γ-glycine on the aberrant activity of pyramidal neurons of hippocampal slices. Doklady Biol. Sci., 444: 157-161.
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122:   Markel, A.L., A.F. Achkasov, О.I. Prokudina, Т.А. Alekhina, E.V. Boldyreva and V.V. Boldyrev, 2010. Different effect of the gamma-and alfa-polymorphs of glycine on rats prone to catalepcy. Proc. RAS, 434: 261-264.
123:   Markel, A.L., A.F. Achkasov, T.A. Alekhina, O.I. Prokudina and M.A. Ryazanova et al., 2011. Effects of the α- and γ-polymorphs of glycine on the behavior of catalepsy prone rats. Pharmacol. Biochem. Behav., 98: 234-240.
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124:   Masciocchi, N., A.N. Kolyshev, V.E. Dulepov, E.V. Boldyreva and A. Sironi, 1994. Study of the linkage isomerization [Co(NH3)5NO2]Br2 [Co(NH3)5ONO]Br2 in the solid state by X-ray powder diffraction. Inorg. Chem., 33: 2579-2585.
125:   Michalchuk, A.A., I.A. Tumanov and E.V. Boldyreva, 2013. Complexities of mechanochemistry: elucidation of processes occurring in mechanical activators via implementation of a simple organic system. CrystEngComm, 15: 6403-6412.
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126:   Mikhailenko, M.A., T.N. Drebushchak, V.A. Drebushchak, E.V. Boldyreva and V.V. Boldyrev, 2005. Synthesis and characterization of sulfathiazole-pyridine solvate polymorphs. J. Crystal Growth, 274: 569-572.
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127:   Minkov, V.S. and E.V. Boldyreva, 2009. DL-Cysteinum semioxalate. Acta Crystallogr., 65: o245-o247.
128:   Minkov, V.S. and E.V. Boldyreva, 2011. L-Cysteinium semioxalate: A new monoclinic polymorph or a hydrate? Acta Cryst. C, 67: o139-o142.
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129:   Minkov, V.S. and E.V. Boldyreva, 2012. The effect of partial methylation of the glycine amino group on crystal structure in N, N-dimethylglycine and its hemihydrate. Acta Crystallogr. Sect. C: Cryst. Struct. Commun., 68: o283-o287.
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130:   Minkov, V.S. and E.V. Boldyreva, 2013. Weak hydrogen bonds formed by thiol groups in N-acetyl-L-cysteine and their response to the crystal structure distortion on increasing pressure. J. Phys. Chem. B., 117: 14247-14260.
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131:   Minkov, V.S., E.A. Kapustin and E.V. Boldyreva, 2013. Betaine 0.77-perhydrate 0.23-hydrate and common structural motifs in crystals of amino acid perhydrates. Acta Crystallogr. Sect. C: Cryst. Struct. Commun., 69: 416-420.
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132:   Minkov, V.S., E.V. Boldyreva, T.N. Drebushchak and C.H. Gorbitz, 2012. Stabilizing structures of cysteine-containing crystals with respect to variations of temperature and pressure by immobilizing amino acid side chains. Cryst. Eng. Comm., 14: 5943-5954.
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133:   Minkov, V.S., N.A. Tumanov, B.A. Kolesov, E.V. Boldyreva and S.N. Bizyaev, 2009. Phase transitions in the crystals of l-and dl-cysteine on cooling: The role of the hydrogen-bond distortions and the side-chain motions. 2. dl-cysteine. J. Phys. Chem. B, 113: 5262-5272.
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134:   Minkov, V.S., N.A. Tumanov, R.Q. Cabrera and E.V. Boldyreva, 2010. Low temperature/high pressure polymorphism in DL-cysteine. CrystEngComm, 12: 2551-2560.
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135:   Minkov, V.S., S.V. Goryainov, E.V. Boldyreva and C.H. Gorbitz, 2010. Raman study of pressure-induced phase transitions in crystals of orthorhombic and monoclinic polymorphs of L-cysteine: Dynamics of the side chain. J. Raman Spectrosc., 41: 1748-1758.
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136:   Minkov, V.S., V.A. Drebushchak, A.G. Ogienko and E.V. Boldyreva, 2011. Decreasing particle size helps to preserve metastable polymorphs. A case study of DL-cysteine. Cryst. Eng. Comm., 13: 4417-4426.
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137:   Minkov, V.S., Y.А. Chesalov and Е.V. Boldyreva, 2010. An FT-IR study of the effect of temperature on the crystal structures of amino acids, peptides and polyaminoacids. J. Struct. Chem., 51: 1091-1102.
138:   Minkov, V.S., Y.A. Chesalov and E.V. Boldyreva, 2008. FT-IR-spectroscopic study of crystalline amino acids, dipeptides and polyaminoacids at variable temperatures. IV. L-Cysteine and DL-Cysteine. J. Struct. Chem., 49: 1061-1073.
139:   Myz, S.А., Т.P. Shakhtshneider, N.А. Tumanov and Е.V. Boldyreva, 2012. Co-crystals of meloxicam with carboxyllic acids. Russ. Chem. Bull., 9: 1782-1793.
140:   Myz, S.A., T.P. Shakhtshneider, K. Fucke, A.P. Fedotov, E.V. Boldyreva, V. Boldyrev and N.I. Kuleshova, 2009. Synthesis of co-crystals of meloxicam with carboxylic acids by grinding. Mendeleev Commun., 19: 272-274.
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141:   Naumov, D.Y. and E.V. Boldyreva, 1999. Software for the analysis of «free space» in crystal structures and supramolecular assemblies. J. Struct. Chem., 40: 102-110.
142:   Naumov, D.Y., A.V. Virovets, N.V. Podberezskaya and E.V. Boldyreva, 1995. Crystal structure of silver oxalate. Acta Cryst., C51: 60-62.
143:   Naumov, D.Y., D.S. Yufit, E.V. Boldyreva and J.A. Howard, 2001. A urea complex of copper (II) hypophosphite at 293, 100 and 15 K. Acta Crystallographica Sect. C: Crystal Struc. Commun., 57: 790-792.
Direct Link  |  
144:   Naumov, D.Y., E.V. Boldyreva, A.V. Virovets and N.V. Podberezskaya, 1994. The role of crystal structure in the photolysis of silver oxalate. J. Struct. Chem., 35: 158-168.
145:   Naumov, D.Y., E.V. Boldyreva, N.V. Podberezskaya and J.A.K. Howard, 1997. The role of ideal and real crystal structure in the Solid-state decomposition of silver oxalate: Experimental diffraction studies and theoretical calculations. Solid State Ionics, 101: 1315-1320.
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146:   Naumov, D.Y., N.E. Kascheeva, E.V. Boldyreva and J.A.K. Howard, 1999. Crystal structure of [Co(NH3) 5NO2]SiF6 at 290K and 150K. Acta Cryst., C55: 1205-1208.
147:   Naumov, D.Y., N.V. Podberezskaya, E.V. Boldyreva and A.V. Virovets, 1996. Crystal structures of oxalic acid and its salts. J. Struct. Chem., 37: 550-578.
148:   Naumov, P., S.C. Sahoo, B.A. Zakharov and E.V. Boldyreva, 2013. Dynamic single crystals: Kinematic analysis of photoinduced crystal jumping (The photosalient effect). Angewandte Chemie, 125: 10174-10179.
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149:   Nizovsky, А.I., А.V. Kalinkin, Т.P. Shakhtshneider, М.А. Dyakonova, S.А. Myz, Е.V. Boldyreva and K. Rakesh, 2011. An XFES study of the mechanically prepared composites of pharmaceutical ingredients supported at the surface of aluminium oxide. J. Struct. Chem., 52: S141-S147.
150:   Novikov, P.B., D.Y. Naumov, E.V. Boldyreva and N.V. Podberezskaya, 1998. Crystal structure of [Co(NH3)5NO2]C2O4: Non-covalent interactions and their role in preventing solid-state linkage isomerization. J. Struct. Chem., 39: 412-423.
151:   Ogienko, А.G., Е.V. Boldyreva, А.Y. Manakov, V.V. Boldyrev and А.S. Yunoshev et al., 2011. A new method of producing monoclinic paracetamol suitable for direct compression. Pharm. Res., 28: 3116-3127.
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152:   Ogienko, А.G., Е.V. Boldyreva, А.Y. Manakov, V.V. Boldyrev and M.A. Mikhailenko et al., 2011. A new method of obtaining fine paracetamol powder for direct compression. Proc. RAS, 437: 785-788.
153:   Ogienko, A.G., E.V. Boldyreva, A. Yu. Manakov, S.A. Myz' and A.A. Ogienko et al., 2012. Preparation of fine powders of pharmaceutical substances by freeze-drying of frozen solutions in systems with clathrate formation. Doklady Phys. Chem., 444: 88-92.
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154:   Ogienko, A.G., E.V. Boldyreva, A.Y. Manakov, E.G. Zevak and A.A. Ogienko et al., 2013. In situ X-ray diffraction study of the processes that occur upon annealing frozen solutions in systems with clathrate formation, aimed at developing new forms of medicinal substances with improved properties. Bull. Russ. Acad. Sci. Phys., 77: 130-133.
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155:   Ogienko, A.G., E.V. Boldyreva, V.V. Boldyrev, A.Y. Manakov and S.A. Myz et al., 2012. Design of new drug forms by cryo-nanotechnologies. J. Phys.: Conf. Ser., Vol. 345. 10.1088/1742-6596/345/1/012044.
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156:   Paukov, I.E., Y.A. Kovalevskaya and E.V. Boldyreva, 2008. Low-temperature thermodynamic properties of L-cysteine. J. Thermal Anal. Calorimetry, 93: 423-428.
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157:   Paukov, I.E., Y.A. Kovalevskaya and E.V. Boldyreva, 2010. Low-temperature thermodynamic properties of DL-cysteine. J. Therm. Anal. Calorim., 100: 295-301.
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158:   Paukov, I.E., Y.A. Kovalevskaya and E.V. Boldyreva, 2012. Low-temperature heat capacity of L- and DL-phenylglycines. J. Therm. Anal. Calorim., 108: 1311-1316.
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159:   Paukov, I.E., Y.A. Kovalevskaya and E.V. Boldyreva, 2013. Low-temperature heat capacity and thermodynamic parameters of gamma-aminobutyric acid. J. Therm. Anal. Calorim., 111: 2059-2062.
160:   Paukov, I.E., Y.A. Kovalevskaya and E.V. Boldyreva, 2013. Low-temperature thermodynamic properties of L-and DL-valines. J. Ther. Anal. Calorim., 111: 905-910.
161:   Paukov, I.E., Y.A. Kovalevskaya, A.E. Arzamastcev, N.A. Pankrushina and E.V. Boldyreva, 2012. Heat capacity of methacetin in a temperature range of 6 to 300 K. J. Therm. Anal. Calorim., 108: 243-247.
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162:   Paukov, I.E., Y.A. Kovalevskaya, E.V. Boldyreva and V.A. Drebushchak, 2009. Heat capacity of β-alanine in a temperature range between 6 and 300 K. J. Thermal Anal. Calorimetry, 98: 873-876.
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163:   Paukov, I.E., Y.A. Kovalevskaya, V.A. Drebushchak, T.N. Drebushchak and E.V. Boldyreva, 2007. An extended phase transition in crystalline L-cysteine near 70 K. J. Phys. Chem. B, 111: 9186-9188.
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164:   Rychkov, D., E.V. Boldyreva and N.A. Tumanov, 2013. A new structure of a serotonin salt: Comparison and conformational analysis of all known serotonin complexes. Acta Crystallogr. Sect. C: Cryst. Struct. Commun., 69: 1055-1061.
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165:   Seryotkin, Y.V. Kovalevskaya, T.N. Drebushchak and E.V. Boldyreva, 2013. Effect of hydrostatic pressure on alpha-polymorph of chlorpropamide in saturated ethanol solution. Acta Crystallogr. Sect. B: Struct. Sci., 69: 77-85.
166:   Shakhtshneider, T.P., E.V. Boldyreva and H. Ahsbahs, 2000. Callibrating pressure in a DAC during high-pressure spectroscopic studies. Russian J. Phys. Chem., 74: 960-963.
167:   Shakhtshneider, T.P., E.V. Boldyreva, M.A. Vasilchenko, H. Ahsbahs and H. Uchtmann, 1999. Anisotropy of structural distortion of crystal structures of drugs. J. Struct. Chem., 40: 1140-1148.
168:   Shakhtshneider, T.P., E.V. Boldyreva, M.A. Vasilchenko, H. Ahsbahs and H.A. Uchtmann, 1998. Comparative study of the anisotropy of pressure-induced structural distortion of paracetamol and fenacetin. Proceed. RAS, 363: 783-786.
169:   Shakhtshneider, T.P., F. Danede, F. Capet, J.F. Willar and M. Descamps et al., 2007. Grinding of drugs with pharmaceutical excipients at cryogenic temperatures. J. Thermal Anal. Calorimetry, 89: 709-715.
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170:   Shakhtshneider, T.P., F. Danede, F. Capet, J.F. Willart and M. Descamps et al., 2007. Grinding of drugs with pharmaceutical excipients at cryogenic temperatures. J. Thermal Anal. Calorimetry, 89: 699-707.
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171:   Shakhtshneider, T.P., S.A. Myz, M.A. Dyakonova, V.V. Boldyrev and E.V. Boldyreva et al., 2011. Mechanochemical preparation of organic-inorganic hybrid materials of drugs with inorganic oxides. Acta Physica Polonica, 120: 272-278.
Direct Link  |  
172:   Surovtsev, N.V., S.V. Adichtchev, V.K. Malinovsky, A.G. Ogienko and V.A. Drebushchak et al., 2012. Glycine phases formed from frozen aqueous solutions: Revisited. J. Chem. Phys., Vol. 137. 10.1063/1.4739532.
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173:   Surovtsev, N.V., V.K. Malinovsky and E.V. Boldyreva, 2011. Raman study of low-frequency modes in three glycine polymorphs. J. Chem. Phys., Vol. 134. 10.1063/1.3524342.
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174:   Tsapatsaris, N., S. Landsgesell, M.M. Koza, B. Frick, E.V. Boldyreva and H.N. Bordallo, 2013. Polymorphic drugs examined with neutron spectroscopy: Is making more stable forms really that simple? Chem. Phys., 427: 124-128.
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175:   Tumanov, I.А., А.F. Achkasov, Е.V. Boldyreva and V.V. Boldyrev, 2012. Detecting intermediate products of mechanochemical synthesis of molecular complexes. Russ. J. Phys. Chem., 86: 1125-1128.
176:   Tumanov, I.A., A.F. Achkasov, E.V. Boldyreva and V.V. Boldyrev, 2011. Following the products of mechanochemical synthesis step by step. Cryst. Eng. Comm., 13: 2213-2216.
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177:   Tumanov, N.А., N.А. Pankrushina, А.А. Nefedov and Е.V. Boldyreva, 2012. Nanoporous solvate of N, N-phthaloyl-glycine. J. Struct. Chem., 53: 606-609.
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178:   Tumanov, N.A. and E.V. Boldyreva, 2012. X-ray diffraction and Raman study of DL-alanine at high pressure: Revision of phase transitions. Acta Crystallogr. Sect. B: Struct. Sci., 68: 412-423.
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179:   Tumanov, N.A., E.V. Boldyreva and H. Ahsbahs, 2008. Structure solution and refinement from powder or single-crystal diffraction data? Pros and cons: An example of the high-pressure β'-polymorph of glycine. Powder Diffraction, 23: 307-316.
180:   Tumanov, N.A., E.V. Boldyreva and N.E. Shikina, 2010. Two new structures in the glycine-oxalic acid system. Acta Cryst., C66: o279-o283.
PubMed  |  Direct Link  |  
181:   Tumanov, N.A., E.V. Boldyreva, B.A. Kolesov, A.V. Kurnosov and R.Q. Cabrera, 2010. Pressure-induced phase transitions in L-alanine, revisited. Acta Cryst., B66: 458-471.
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182:   Tumanov, N.A., E.V. Timakova and E.V. Boldyreva, 2010. Tribenzoatobismuth(III): A new polymorph. Acta Cryst., E66: m1248-m1248.
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183:   Tumanov, N.A., S.A. Myz, T.P. Shakhtshneider and E.V. Boldyreva, 2012. Are meloxicam dimers really the structure-forming units in the 'meloxicam-carboxylic acid' co-crystals family? Relation between crystal structures and dissolution behavior. Cryst. Eng. Comm., 14: 305-313.
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184:   Vasilchenko, M.A., T.P. Shakhtshneider, D.Y. Naumov, E.V. Boldyreva and V.V. Boldyrev, 1996. Topochemistry of the dissolution of single crystals of paracetamol. Proceed. Russ. Acad. Sci., 350: 777-780.
185:   Virovets, A.V., D.Y. Naumov, N.V. Podberezskaya and E.V. Boldyreva, 1993. Crystal structure of PbC2O4 2H2O. Acta Cryst. C, C49: 1882-1884.
186:   Virovets, A.V., E.V. Boldyreva, N.V. Podberezskaya, L.P. Burleva and V.E. Dulepov, 1994. Crystal structure of [Co(NH 3) 5 NO 2](NO 3) 2. J. Struct. Chem., 35: 100-105.
187:   Virovets, A.V., N.V. Podberezskaya, E.V. Boldyreva, S.A. Gromilov and L.P. Burleva, 1992. Crystal structure of [Co(NH3)5NO2]I2. J. Struct. Chem., 33: 146-156.
188:   Yakobson, B.I., E.V. Boldyreva and A.A. Sidel'nikov, 1989. A quantitative description of the bending deformation of single crystals induced by a photochemical reaction. Proceed. Sib. Dept. Acad. Sci. USSR, 51: 6-10.
189:   Zakharov, B.A. and E.V. Boldyreva, 2011. DL-alaninium semi-oxalate monohydrate. Acta Crystallogr. C, 67: o47-o51.
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190:   Zakharov, B.A. and E.V. Boldyreva, 2013. A high-pressure single-crystal to single-crystal phase transition in DL-alaninium semi-oxalate monohydrate with switching-over hydrogen bonds. Acta Crystallogr. B. Struct. Sci. Cryst. Eng. Mater., 69: 271-280.
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191:   Zakharov, B.A., B.A. Kolesov and E.V. Boldyreva, 2011. Monitoring selected hydrogen bonds in crystal hydrates of amino acid salts: Combining variable-temperature single-crystal X-ray diffraction and polarized Raman spectroscopy. Phys. Chem. Chem. Phys., 13: 13106-13116.
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192:   Zakharov, B.A., B.A. Kolesov and E.V. Boldyreva, 2012. Effect of pressure on crystalline L- and DL-serine: Revisited by a combined single-crystal X-ray diffraction at a laboratory source and polarized Raman spectroscopy study. Acta Cryst., 68: 275-286.
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