O.G. D'yachenko scite author profile

O.G. D'yachenko

4Publications

122Citation Statements Received

161Citation Statements Given

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Lomonosov Moscow State University, D. Mendeleyev University of Chemical Technology of Russia

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Structural and magnetic properties of the colossal magnetoresistance perovskiteLa0.85Ca0.15MnO
Lobanov
¹
,
Балагуров
²
,
Pomjakushin
³

et al. 2000
Phys. Rev. B
52
3
37
0
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A single phase sample of La 0.85 Ca 0.15 MnO 3 with uniform cation distribution and complete oxygen stoichiometry was synthesized by freeze-drying technique and studied by a variety of methods. The sample is ferromagnetic below T C ϭ170 K with Mn ϭ2.9(1) B at 10 K. Precise examination of the crystal structure by a combination of electron diffraction, high-resolution electron microscopy, and neutron powder diffraction revealed a monoclinic distortion of the GdFeO 3-type structure ͓S.G. P2 1 /c, aϭ7.74476(6) Å, b ϭ5.50398(4) Å, cϭ5.47351(4) Å, ␤ϭ90.091(2) 0 ͔ with nonequivalent MnO 2 layers alternating along the a axis. The crystal structure is characterized by a specific pattern of Mn-O distances implying an unconventional orbital ordering type. A possible relation to charge ordering is described within the bond valence sum framework.

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Cycloplatination of aryl and ferrocenyl oximes by cis-[PtCl2(OSMe2)2] affording expected platinum(II) and unexpected platinum(IV) products

Ryabov¹,

Kazankov²,

Panyashkina³

et al. 1997

J. Chem. Soc., Dalton Trans.

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Transmission Electron Microscopy and Neutron Powder Diffraction Studies of GdFeO3 Type SrNbO3

Hannerz

Svensson

Istomin

et al. 1999

Journal of Solid State Chemistry

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Mechanism of Biologically Relevant Deoxygenation of Dimethyl Sulfoxide Coupled with Pt(II) to Pt(IV) Oxidation of Orthoplatinated Oximes. Synthetic, Kinetic, Electrochemical, X-ray Structural, and Density Functional Study

et al. 2000

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Orthometalated aryl oxime complexes cis-(C,S)-[PtII(C6H3-2-CMeNOH-5-R)Cl(Me2SO)] (1, R = H (a), MeO, Me, F, and Cl) undergo deoxygenation of dimethyl sulfoxide (DMSO) in methanol in the presence of HCl to afford the Pt(IV) dimethyl sulfide complexes fac-[PtIV(C6H3-2-CMeNOH-5-R)Cl3(Me2S)] (2), the composition of which was confirmed by an X-ray structural study of 2a. The mechanism of the deoxygenation coupled with the oxidation of Pt(II) to Pt(IV) was investigated using cyclic voltammetry, UV−vis, and 1H NMR spectrometry techniques at 40−60 °C in the presence of HCl, LiCl, and NaClO4. The conversion of 1 into 2 does not occur intramolecularly and involves two time-resolved phases which were studied independently. The first is the substitution of chloride for DMSO to afford the anionic reactive complexes cis-[Pt(C6H3-2-CMeNOH-5-R)Cl2]- (1 Cl), which are involved in the acid-promoted interaction with free DMSO in the second phase. The formation of 1 Cl follows the usual two-term rate law k obs1 = k s + k Cl[LiCl], the k Cl-driven pathway being negligible for the electron-rich complex with R = MeO. Thus-generated complexes 1 Cl, in contrast to their precursors 1, are more susceptible to oxidation, and the irreversible peak for 1 Cl, E(p1), is observed ca. 300 mV more cathodically compared to that of 1. The second phase is acid-catalyzed and at low LiCl concentrations follows the rate expression k obs2[H+]-1 = k 10‘ + k 10[LiCl]. The complexes with the electron-withdrawing substituents R react faster, and there is a linear correlation between log k 10 and E(p1). The first-order in the acid is discussed in terms of two kinetically indistinguishable mechanisms involving the rate-limiting either electron transfer from 1 Cl to protonated DMSO (mechanism 1) or insertion of the SO bond of free DMSO into the platinum−hydride bond of the reactive hydride complex of Pt(IV), cis-[Pt(C6H3-2-CMeNOH)(H)Cl2], to afford a {Pt−SMe2−OH} fragment. Its protonation by HCl and dissociation of water gives the final product 2 (mechanism 2). 1H NMR evidence is presented for the formation of the hydride species on protonation of a Pt(II) complex, whereas a density functional study of the two mechanisms indicates that mechanism 2 is less energy demanding. The system studied is viewed as a functioning mimetic of the Mo-dependent enzyme DMSO reductase because of several common features observed in catalysis.

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O.G. D'yachenko

Structural and magnetic properties of the colossal magnetoresistance perovskiteLa0.85Ca0.15MnO
Lobanov
¹
,
Балагуров
²
,
Pomjakushin
³

et al. 2000
Phys. Rev. B
52
3
37
0
View full text Add to dashboard Cite

Cycloplatination of aryl and ferrocenyl oximes by cis-[PtCl2(OSMe2)2] affording expected platinum(II) and unexpected platinum(IV) products

Transmission Electron Microscopy and Neutron Powder Diffraction Studies of GdFeO3 Type SrNbO3

Mechanism of Biologically Relevant Deoxygenation of Dimethyl Sulfoxide Coupled with Pt(II) to Pt(IV) Oxidation of Orthoplatinated Oximes. Synthetic, Kinetic, Electrochemical, X-ray Structural, and Density Functional Study

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O.G. D'yachenko

Structural and magnetic properties of the colossal magnetoresistance perovskiteLa0.85Ca0.15MnOLobanov1, Балагуров2, Pomjakushin3 et al. 2000Phys. Rev. B523370View full textAdd to dashboardCite

Cycloplatination of aryl and ferrocenyl oximes by cis-[PtCl2(OSMe2)2] affording expected platinum(II) and unexpected platinum(IV) products

Transmission Electron Microscopy and Neutron Powder Diffraction Studies of GdFeO3 Type SrNbO3

Mechanism of Biologically Relevant Deoxygenation of Dimethyl Sulfoxide Coupled with Pt(II) to Pt(IV) Oxidation of Orthoplatinated Oximes. Synthetic, Kinetic, Electrochemical, X-ray Structural, and Density Functional Study

Contact Info

Product

Resources

About

Structural and magnetic properties of the colossal magnetoresistance perovskiteLa0.85Ca0.15MnO
Lobanov
¹
,
Балагуров
²
,
Pomjakushin
³

et al. 2000
Phys. Rev. B
52
3
37
0
View full text Add to dashboard Cite