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Dive into the research topics where L. A. Glinskaya is active.

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Featured researches published by L. A. Glinskaya.


Journal of Structural Chemistry | 1998

Synthesis and crystal and molecular structure of mixed-ligand compounds Eu(S2CN(C2H5)2)3(2,2′-Bipy) and Eu(S2CN(C2H5)2)3(1,10-Phen)

V. L. Varand; L. A. Glinskaya; R. F. Klevtsova; S. V. Larionov

Synthetic procedures were developed and X-ray diffraction analysis was performed for two mixed-ligand compounds of europium(III) with diethyldithiocarbamate ions and 2,2′-bipyridyl (2,2′-Bipy) or 1,10-phenanthroline (Phen): Eu(S2CN(C2H5)2)3(2,2′-Bipy) (I) and Eu(S2CN(C2H5)2)3Phen (II). The structures of the complexes consist of discrete monomer molecules; the coordination polyhedron of Eu (EuN2S6 is a node) is a distorted dodecahedron.


Russian Journal of Inorganic Chemistry | 2006

Phase formation in the Rb2MoO4-Er2(MoO4)3-Hf(MoO4)2 system and the crystal structure of new triple molybdate Rb5ErHf(MoO4)6

B. G. Bazarov; R. F. Klevtsova; O. D. Chimitova; L. A. Glinskaya; K. N. Fedorov; Yu. L. Tushinova; Zh. G. Bazarova

AbstractThe subsolidus region of the Rb2MoO4-Er2(MoO4)3-Hf(MoO4)2 ternary salt system is studied using X-ray powder diffraction. A novel 5: 1: 2 triple molybdate, Rb5ErHf(MoO4)6, is found to form in the system. Crystals of Rb5ErHf(MoO4)6 are flux-grown under spontaneous nucleation conditions. The composition and crystal structure of Rb5ErHf(MoO4)6 are refined in a single-crystal X-ray diffraction experiment (X8 APEX diffractometer, MoKα radiation, 1753 reflections, R = 0.0183). The crystals are trigonal; a = 10.7511(1) Å, c = 38.6543(7) Å, V = 3869.31(9) Å3, dcalc = 4.462 g/cm3, Z = 6, space group % MathType!MTEF!2!1!+-% feaafiart1ev1aaatCvAUfeBSjuyZL2yd9gzLbvyNv2CaerbuLwBLn% hiov2DGi1BTfMBaeXatLxBI9gBaerbd9wDYLwzYbItLDharqqtubsr% 4rNCHbGeaGqiVu0Je9sqqrpepC0xbbL8F4rqqrFfpeea0xe9Lq-Jc9% vqaqpepm0xbba9pwe9Q8fs0-yqaqpepae9pg0FirpepeKkFr0xfr-x% fr-xb9adbaqaaeGaciGaaiaabeqaamaabaabaaGcbaGaamOuaiqaio% dagaqeaiaadogaaaa!3881!


Journal of Structural Chemistry | 1998

Binary molybdates K4M2+(MoO4)3 (M2+=Mg, Mn, Co) and crystal structure of K4Mn(MoO4)3

S. F. Solodovnikov; P. V. Klevtsov; Zoya A. Solodovnikova; L. A. Glinskaya; R. F. Klevtsova


Polyhedron | 1999

Synthesis and crystal structure of ZnPhen(i-Pr2NCS2)2 and molecule packing types in complexes ZnPhen(R2NCS2)2 (R=Me, Et, i-Pr, n-Pr, i-Bu, n-Bu)

R. F. Klevtsova; L. A. Glinskaya; S. M. Zemskova; S. V. Larionov

R\bar 3c


Russian Journal of Coordination Chemistry | 2006

Co(III) complexes with optically active bis(menthane), pinano-para-menthane, carano-para-menthane, and bis(carane) propylenediaminodioximes

S. V. Larionov; Alexey V. Tkachev; Z. A. Savel’eva; L. I. Myachina; L. A. Glinskaya; R. F. Klevtsova; S. N. Bizyaev


Russian Journal of Coordination Chemistry | 2011

Synthesis and photoluminescence of the chiral compounds [ZnLCl2] · EtOH and ZnLCl2, where L is the (+)-3-Carene derivative containing pyrazoline and quinoline fragments: crystal structure of [ZnLCl2] · EtOH

S. V. Larionov; Z. A. Savel’eva; R. F. Klevtsova; E. M. Uskov; L. A. Glinskaya; Sergey A. Popov; A. V. Tkachev

. The mixed three-dimensional framework of the structure is formed of MoO4 tetrahedra, each sharing corners with two ErO6 and HfO6 octahedra. Two types of Rb atoms occupy large cavities of the framework. The distribution of the Er3+ and Hf4+ cation over two positions is refined in the course of structure solution.


Russian Journal of Coordination Chemistry | 2007

Cobalt(II) and copper(II) complexes with chiral pyrazolylquinoline, a derivative of terpenoid (+)-3-carene. Catalytic activity in ethylene polymerization reaction

S. V. Larionov; Z. A. Savel’eva; Nina V. Semikolenova; R. F. Klevtsova; L. A. Glinskaya; E. G. Boguslavskii; V. N. Ikorskii; Vladimir A. Zakharov; S. A. Popov; Alexey V. Tkachev

AbstractBinary molybdates K4M2+ (MoO4)3 (M2+=Mg, Mn, Co) isostructural to triclinic \ga-K4Zn(WO4)3 were synthesized, and optimal conditions for their spontaneous crystallization were found. It was established by XRPA and DTA that at 530°C the structure of the compound with cobalt undergoes a transition to the orthorhombic structure of K4Zn(MoO4)3. The structure of K4Mn(MoO4)3 was determined from single crystal diffraction data (a=7.613, b=9.955, c=10.156 Å,α=92.28,β=106.66,γ=105.58°, Z=2, space group


Journal of Structural Chemistry | 2000

A NEW TYPE OF MIXED FRAMEWORK IN THE CRYSTAL STRUCTURE OF BINARY MOLYBDATE Nd2Zr3(MoO4)9

R. F. Klevtsova; S. F. Solodovnikov; Yu. L. Tushinova; B. G. Bazarov; L. A. Glinskaya; Zh. G. Bazarova


Russian Journal of Coordination Chemistry | 2012

Synthesis, structures, and photoluminescence of heteroligand complexes Ln(L)(iso-Bu2PS2)2(NO3) (Ln = Sm, Tb, Dy; L = Phen, 2,2′-Bipy)

Yu. A. Bryleva; T. E. Kokina; L. A. Glinskaya; E. M. Uskov; M. I. Rakhmanova; A. V. Alekseev; S. V. Larionov

P\bar 1


Russian Journal of Coordination Chemistry | 2009

Luminescence properties of complexes Ln(Phen)(C6F5COO)3 (Ln = Tb, Eu) and Ln(C6F5COO)3 · nH2O (Ln = Tb, n = 2; Ln = Eu, n = 1). Structures of the [Tb2(H2O)8(C6F5COO)6] complex and its isomer in the supramolecular compound [Tb2(H2O)8(C6F5COO)6] · 2C6F5COOH

S. V. Larionov; L. A. Glinskaya; T. G. Leonova; R. F. Klevtsova; E. M. Uskov; V. E. Platonov; V. M. Karpov; V. P. Fadeeva

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R. F. Klevtsova

Russian Academy of Sciences

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S. V. Larionov

Russian Academy of Sciences

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T. E. Kokina

Russian Academy of Sciences

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Zh. G. Bazarova

Russian Academy of Sciences

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B. G. Bazarov

Russian Academy of Sciences

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A. V. Tkachev

Russian Academy of Sciences

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K. N. Fedorov

Russian Academy of Sciences

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S. M. Zemskova

Russian Academy of Sciences

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Alexey V. Tkachev

Russian Academy of Sciences

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S. N. Bizyaev

Russian Academy of Sciences

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