T. A. Savinykh scite author profile

The article considers the effect of the solvate environment of the lithium cation in various aprotic solvents.The redox reactions of electrodes made from a polymeric condensation product of triquinoyl with 1,2,4,5-tetraaminobenzene are studied. A 1 M LiPF6 solution was used as an electrolyte, in either ethylene carbonate/dimethyl carbonate (EC/DMC) or tetraglyme. Based on the electrochemical studies and quantum chemical modeling, it was shown that the desolvation of lithium cations in the tetraglyme-based electrolyte makes it possible to obtain a capacity close to the theoretical one (up to 546 mAh g−1) and only 125 mAh g−1 for the EC/DMC electrolyte. This decrease is due to the fact that the lithium cation adds to the functional groups of the organic material with two dimethyl carbonate molecules, as well as the PF6- anion.

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Geometry and electronic structure of a heterometallic cluster Mo2Mg2 in different oxidation states of Mo: a DFT study

Savinykh

Shestakov

2008

Russ Chem Bull

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Reduction of tetranuclear heterometallic complex Mo 2 Mg 2 was simulated using the B3LYP and PBE density functional methods. The results of geometry calculations of the initial complex [Mo VI O 2 Mg(MeOH) 2 (OMe) 4 ] 2 and a partially reduced Mo V complex are in good agreement with experimental data. The reduced Mo III complex is characterized by a decrease in the binding energy of aqua ligands. Structural rearrangement of the complex with release of a coordination position at the Мо atoms requires small energy expenditure. One can assume that the reduction of the polynuclear complex causes overcrowding of its coordination sphere, which favors formation of dinitrogen complexes.Key words: quantum chemical calculations, DFT methods B3LYP and PBE, catalysts of dinitrogen fixation, binding energy, complex structure.Catalytic systems for dinitrogen reduction are usually based on transition metal ions with d 2 and d 3 electronic configurations. 1 Among them, of particular interest are molybdenum compounds (this element is a constituent of nitrogenase, a natural dinitrogen fixation enzyme). Based on a biomimetic approach, a unique catalytic system containing polynuclear Mo III complexes for dinitrogen fixation was developed (see Ref.2), which catalyzes the reduction of nitrogen under conditions similar to biolog ical ones. Recently, 3 it has been established that the ac tive site of nitrogenase (an Fe Mo cofactor) only can reversibly coordinate N 2 under identical conditions. Therefore, information on the structure of catalytically active polynuclear complex (Mo III ) 8 Mg 2 is of great im portance to gain a better insight into the specific role of the protein environment of the Fe Mo cofactor. Due to the experimental difficulties in the determination of the structure of the complex, it is of interest to elaborate a theoretical approach to the structure elucidation using modern quantum chemical methods that have become highly accurate recently. In the present study, theore tical methods of investigation of polynuclear Мо comp lexes were evaluated using tetranuclear comp lexes [Mo VI O 2 Mg(MeOH) 2 (OMe) 4 ] 2 (1) and [Mo V O 2 (OMe)Mg(MeOH) 2 (OMe) 4 ] 2 (2) as examples; these systems differ in the oxidation state of Mo and their crystal structures are known. 4 The oxidation state of Mo changes with conservation of electroneutrality of the sys

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T. A. Savinykh

Methanolysis of MoCl5 in the presence of different alkaline agents; molecular structures of the polynuclear molybdenum(V) methoxides and electron charge density distribution from X-ray diffraction study of the new K–Mo cluster

Synthesis and investigation of a new organic electrode material based on condensation product of triquinoyl with 1,2,4,5-tetraaminobenzene

High-capacity polymer electrodes for potassium batteries

Influence of the Lithium Cation Desolvation Process at the Electrolyte/Electrode Interface on the Performance of Lithium Batteries

Geometry and electronic structure of a heterometallic cluster Mo2Mg2 in different oxidation states of Mo: a DFT study

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