V. I. Shcherbakov | Researchain

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Synthesis and Reactivity in Inorganic and Metal-organic Chemistry | 1991

Trialkyltin Derivatives of N-Phthaloyl-Protected Amino Acids

V. I. Shcherbakov; E. F. Ivanov; S. Ya. Khorshev; M. S. Feldman; E. B. Kopytov; T. N. Konkina

Abstract Thirty four new complexes of the type R3SnL (R = Alk and L = N-protected amino acid) have been prepared by the reaction of the trialkyltin oxide(hydroxide) and the corresponding N-phthaloyl amino acid in toluene and azeotropic removal of the liberated water. These compounds have been characterized by elemental analyses, IR data and their fungicide activity has been evaluated.

Archive | 2006

CCDC 273135: Experimental Crystal Structure Determination

L. N. Bochkarev; Yu. E. Begantsova; V. I. Shcherbakov; Natalia E. Stolyarova; Irina K. Grigorieva; Irina P. Malysheva; G. V. Basova; Andrey L. Bochkarev; Yu. P. Barinova; Georgy K. Fukin; E. V. Baranov; Yu. A. Kurskii; G. A. Abakumov

Related Article: L.N.Bochkarev, Yu.E.Begantsova, V.I.Shcherbakov, N.E.Stolyarova, I.K.Grigorieva, I.P.Malysheva, G.V.Basova, A.L.Bochkarev, Yu.P.Barinova, G.K.Fukin, E.V.Baranov, Yu.A.Kurskii, G.A.Abakumov|2005|J.Organomet.Chem.|690|5720|doi:10.1016/j.jorganchem.2005.07.035

Russian Journal of General Chemistry | 2002

Synthesis and Thermolysis of Tris(triethoxysiloxy)aluminum and Its Complexes with Potassium and Sodium Triethoxysilanolates

V. I. Shcherbakov; G. V. Basova; S. Ya. Khorshev; I. P. Malysheva; G. A. Domrachev

Reaction of potassium (or sodium) triethoxysilanolate with AlBr3 in benzene in a 3 : 1 or 4 : 1 ratio yields, respectively, tris(triethoxysiloxy)aluminum Al[OSi(OEt)33 or potassium (or sodium) tetrakis(triethoxysiloxy)aluminate M{Al[OSi(OEt)3]4} (M = K, Na). Single-stage thermolysis of tris(triethoxysiloxy)aluminum (200°C) and potassium tetrakis(triethoxysiloxy)aluminate (300°C), followed by annealing of the solid residues at 1000-1250°C, yields ceramic materials, which were examined by X-ray diffraction. The crystalline phase obtained from tris(triethoxysiloxy)aluminum is aluminum metasilicate Al6Si2O13 (mullite), and the product obtained from potassium tetrakis(triethoxysiloxy)aluminate is a mixture of aluminum orthosilicate Al2SiO5 (kyanite) and feldspar aluminosilicate KAlSi3O8 (microcline).

Russian Journal of General Chemistry | 2001

Lithiation of the tin-containing sulfone Me3SnCH2CH2CH2SO2C6H4CH3-4

V. I. Shcherbakov; N. E. Stolyarova; Yu. A. Kurskii; I. K. Grigor'eva

The tin-containing sulfide Me3Sn(CH2)3-S-C6H5CH3-4 obtained by photoaddition of 4-toluene- thiol to allyltrimethyltin was oxidized with hydrogen peroxide to synthesize the tin-containing sulfone Me3Sn(CH2)3-SO2-C6H4CH3-4, the tin and sulfur atoms in which are separated by a trimethylene bribge. Treatment of the sulfone with butyllithium gave a first tin-containing lithium salt having a red-brown color. The exchange reaction of this salt with methyl iodide resulted in formation of two new isomeric tin-containing sulfones Me3SnCH2CH2CH(CH3)-SO2-C6H4CH3 and Me3Sn(CH2)3-SO2-C6H4CH2CH3 identified by 1HNMR spectroscopy. The latter result implies that the tin-containing sulfone is lithiated both by the methylene group adjacent to the sulfonyl group and by the toluene methyl group.

Russian Chemical Bulletin | 1997

1H and13C NMR study of tin-containing sulfoxide, sulfimide, and sulfoximide

Yu. A. Kurskii; N. E. Stolyarova; V. I. Shcherbakov; I. A. Borisova; A. N. Ponomarev

Sulfoxide RS(O)R′ (1), sulfimide RS(=NSO2Ar)R′ (2), and sulfoximide RS(O)(=NSO2Ar)R′ (3) (R=Me3Sn(CH2)3, R′=n-C5H11, Ar=4-C6H4Cl) were investigated by1H and13C NMR spectroscopy. Unlike 3, compounds 1 and 2 have a cyclic structure due to the intramolecular donor-acceptor S→Sn interaction.

Russian Chemical Bulletin | 1994

Reaction of trimethyltin 1-pentanethiolate withN-chloro-N-sodium-4-chlorobenzenesulfonamide

V. I. Shcherbakov; N. E. Stolyarova

The reaction of trimethyltin 1-pentanethiolate withN-chloro-N-sodium-4-chlorobenzenesulfonamide proceeds in anhydrous methanolvia the initial cleavage of the tin-sulfur bond (desulfurization process) and subsequent imination of the sulfenylamide group ofN-trimethylstannyl-N(1-pentyl) sulfenyl-4-chlorobenzenesulfonamide with a second molecule of the chloroamide.

Russian Chemical Bulletin | 1993

Reactions of hexamethylditin and trimethyltin sulfide withN-thio-derivatives of phthalimide

V. I. Shcherbakov; I. K. Grigoreva

The initial formation of organotin derivatives with Sn-S-N bonds in heterolytic reactions of hexamethylditin or trimethyltin sulfide withN-(chlorothio)phthalimide is suggested. Subsequent interaction of these compounds with sulfenyl chloride affordsN, N′-thioorN, N′-dithiobisphthalimide. Homolytic reaction of hexamethylditin withN, N′-dithiobisphthalimide also occursvia an organotin intermediate, which, in the absence of a nucleophilic reagent, eliminates sulfur and converts intoN-trimethylstannylphthalimide.

Russian Chemical Bulletin | 2005

Synthesis and structures of silicon-, germanium-, and tin-containing imido-alkyl molybdenum complexes (ArN)2Mo(CH2EMe3)2 (E = Si, Ge, Sn)

L. N. Bochkarev; A. V. Nikitinskii; Alexandra A. Skatova; Yu. E. Begantsova; V. I. Shcherbakov; Irina P. Malysheva; G. V. Basova; Georgy K. Fukin; Yu. A. Kurskii; S. Ya. Khorshev; Yu. P. Barinova; G. A. Abakumov

Russian Chemical Bulletin | 2002

New tungsten carbyne complexes containing the triphenylgermyl and triphenylstannyl groups at the carbyne carbon atom (ButO)3W≡C—EPh3 (E = Ge, Sn)

L. N. Bochkarev; A. V. Safronova; V. I. Shcherbakov; N. E. Stolyarova; G. V. Basova; S. Ya. Khorshev; Yu. A. Kurskii; G. A. Abakumov

Russian Journal of General Chemistry | 1998

TRIALKYLSTANNYL AND DIALKYLSTANNYL DERIVATIVES OF SULFOACETONE

V. I. Shcherbakov; Irina P. Malysheva; Yu. A. Kurskii

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