L. G. Reiter scite author profile

L. G. Reiter

5Publications

2Citation Statements Received

2Citation Statements Given

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National Technical University of Ukraine “Igor Sikorsky Kyiv Polytechnic Institute”

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Kinetic and quantum-chemical investigation of fac→mer isomerization of cobalt(III) trisaminoethoxide

et al. 2005

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The kinetics of the fac®mer isomerization of cobalt(III) trisaminoethoxide were studied. The acceleration of the reaction with decrease of the pH of the solution is explained by the formation of a reactive monoprotonated form of the complex. The direction of isomerization agrees with quantum-chemical calculations performed at the B3LYP/6-31G** level. The rate constants and activation parameters of the process were obtained. The mechanism of isomerization is discussed.in the form of red-and blue-violet crystals. By the data from electronic and IR spectra it was possible to identify them as facial (fac) and meridional (mer) isomers [1]. An X-ray crystallographic analysis of the red-violet form confirmed its fac configuration [2]. In this isomer all three oxygen atoms are on one face of the octahedron in the cis position to each other, the three nitrogen atoms are on another face, and the O-Co-N atoms are located on all three diagonals of the octahedron. In the mer isomer two oxygen atoms are in the trans position while the third is in the cis position in relation to these atoms, and the O-Co-N, O-Co-O, and N-Co-N atoms are on the diagonals of the octahedron. The isomers of [Co(NH 2 C 2 H 4 O) 3 ] are used as the starting reagents for the synthesis of new mixed-ligand compounds of cobalt(III) and heterometallic complexes, and the configuration of the initial trisaminoethoxide substantially affects the composition of the polynuclear complexes and also the rate of intrasphere substitution of the aminoethoxide by other ligands and the structure of the (III) substitution products [3].Both isomers of [Co(NH 2 C 2 H 4 O) 3 ]·3H 2 O are not configurationally rigid and can under certain conditions be converted from one to the other. Thus, it was found [1-4] that moist crystals of the mer isomer change almost completely with time into the crystalline fac isomer. The process takes place in the same direction in a saturated aqueous solution. In a dilute aqueous solution, however, the reverse reaction is observed [4]: The fac isomer changes quickly and almost irreversibly into the mer isomer. The occurrence of the mer→fac isomerization in the saturated aqueous solution is in our opinion explained by a shift of the equilibrium toward the crystalline fac isomer, which has significantly lower solubility [1,4]. In order to explain the reason for the occurrence of the reverse fac→mer reaction in dilute aqueous solution, containing isolated molecules of [Co(NH 2 C 2 H 4 O) 3 ] quantum-chemical calculations on the stereochemical parameters of the structure and on energy characteristics were carried out for both isomers.The calculations were made by the Gaussian-98 software [5] for fac-and mer-[Co(NH 2 C 2 H 4 O) 3 ]. Both structures were preoptimized at the Hartree -Fock (HF) level and were then reoptimized at the higher level of density functional theory (DFT, B3LYP) in the 6-31G** basis set and also in the LANL2DZ basis set for the cobalt ion and 6-311+G** for the C, H, O, and N atoms. The obtained structures were characterized by h...

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Chemical and phase transformations in the reduction and carbidizing of tungsten-cobalt compounds. II. X-ray phase analysis of the products of reduction and carbidizing of complex tungsten-cobalt oxide systems

Petukhov¹,

Konchakovskaya²,

Уварова³

et al. 1990

Powder Metall Met Ceram

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Aquation of cis-[Co(amine)en2]2+ complexes: a reply to comments by Zsako et al.

Reiter¹

1973

Journal of Inorganic and Nuclear Chemistry

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ELECTROCHEMICAL ACTIVITY OF CARBONS MODIFIED BY d-METAL COMPLEXES WITH ETHANOLAMINES

Reiter

Potaskalov

Andriiko

et al. 2006

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ChemInform Abstract: PRODUKTE DER SUBSTITUTION DES BROMS IN KOMPLEXEN CIS‐BROMO‐AMIN‐BIS‐(AETHYLENDIAMIN)‐KOBALT(III)‐SALZEN

Udovenko¹,

Reiter²,

Shkurman³

1972

Chemischer Informationsdienst

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Die Kationen (I) (meist eingesetzt als Nitrate) gehen in schwach salpetersaurer wäßriger Lösung in Gegenwart geringer AlNO3‐Mengen bei 80‐90°C glatt (Reaktionsdauer 1,5‐15 Min.) in die Kationen (II) über; aus dem cis‐Bromo‐äthanolamin‐bis‐[äthylendiamin]‐Co(III)‐Kation entsteht unter diesen Bedingungen das cis‐Äthanolamin‐bis‐[äthylendiamin]‐Co(III)‐Kation, in dem das Äthanolamin als zweizähniger Ligand vorliegt.

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L. G. Reiter

Kinetic and quantum-chemical investigation of fac→mer isomerization of cobalt(III) trisaminoethoxide

Chemical and phase transformations in the reduction and carbidizing of tungsten-cobalt compounds. II. X-ray phase analysis of the products of reduction and carbidizing of complex tungsten-cobalt oxide systems

Aquation of cis-[Co(amine)en2]2+ complexes: a reply to comments by Zsako et al.

ELECTROCHEMICAL ACTIVITY OF CARBONS MODIFIED BY d-METAL COMPLEXES WITH ETHANOLAMINES

ChemInform Abstract: PRODUKTE DER SUBSTITUTION DES BROMS IN KOMPLEXEN CIS‐BROMO‐AMIN‐BIS‐(AETHYLENDIAMIN)‐KOBALT(III)‐SALZEN

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