Search Results - "Semerikova, A.N."

Thermodynamic characteristics of Li2MoO4, Li2W0.85Mo0.15O4 single crystals and stability direction for alkali molybdates by Matskevich, N.I., Shlegel, V.N., Sednev, A.L., Semerikova, A.N., Zaitsev, V.P., Kuznetsov, V.A., Novikov, A.Yu, Zuev, A.Yu

“…•Single crystals of Li2MoO4, Li2W0.85Mo0.15O4 have been grown by low-temperature-gradient Czochralski technique.•Formation enthalpies for Li2MoO4,…”
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Bismuth niobates doping by lutetium and dysprosium: Synthesis, formation enthalpies, heat capacity by Matskevich, N.I., Semerikova, A.N., Zaitsev, V.P., Matskevich, M.Yu, Novikov, A.Yu

“…Bismuth niobates doped by lutetium and dysprosium (Bi3Nb0.2Lu0.8O6.2, Bi3Nb0.2Dy0.8O6.2) were synthesized by solid state reaction. Bi3Nb0.2Lu0.8O6.2 was…”
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Low-temperature-gradient Czochralski crystal growth, standard formation enthalpy and lattice enthalpy of cesium dimolybdate by Matskevich, N.I., Semerikova, A.N., Trifonov, V.A., Kochelakov, D.V., Korolkov, I.V., Shlegel, V.N., Matskevich, M.Yu, Anyfrieva, O.I.

“…Cesium dimolybdate (Cs2Mo2O7) has been grown by a low-temperature-gradient Czochralski technique. Cs2Mo2O7 is one of the perspective materials to search rare…”
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The effect of substituting of rare earth elements (R = Ho, Yb) on energetic characteristics of doped barium cerates by Matskevich, N.I., Semerikova, A.N., Gelfond, N.V., Matskevich, M.Yu, Anyfrieva, O.I., Tkachev, E.N.

“…•The BaCe0.7Ho0.2In0.1O2.85, BaCe0.7Yb0.2In0.1O2.85 compounds have been synthesized by solid state reactions.•The standard formation enthalpies and lattice…”
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Czochralski growth, thermodynamic analysis and luminescent properties of Li2W1-xMoxO4 crystal material by Matskevich, N.I., Semerikova, A.N., Shlegel, V.N., Zaitsev, V.P., Matskevich, M.Yu, Anyfrieva, O.I.

“…High perfect single crystal of Li2W0·95Mo0·05O4, which is one of the perspective materials to search rare events, has been grown by a low-temperature-gradient…”
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Single crystal of CsLiMoO4: Growth by low-temperature-gradient Czochralski technique, thermodynamic characteristics by Matskevich, N.I., Trifonov, V.A., Semerikova, A.N., Samoshkin, D.A., Stankus, S.V., Shlegel, V.N., Luk'yanova, S.A., Zaitsev, V.P., Kuznetsov, V.A.

“…For the first time, single crystal of CsLiMoO4 was grown by low-temperature-gradient Czochralski technique with weight control. The low-temperature-gradient…”
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Barium cerates co-doped by rare-earth elements and indium: Formation enthalpies, stabilization energies, lattice energies by Matskevich, N.I., Wolf, Th, Semerikova, A.N., Matskevich, M.Yu, Anyfrieva, O.I.

“…•Formation enthalpies of BaCe0.7Er0.2M0.1O2.85 (M = In, Y) have been measured.•Stabilization energies for BaCe0.7Er0.2M0.1O2.85 have been calculated.•Lattice…”
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Formation enthalpy and thermodynamic functions of Li2W1-xMoxO4 single crystals (x = 0.025 and 0.05) by Matskevich, N.I., Shlegel, V.N., Gelfond, N.V., Semerikova, A.N., Matskevich, M.Yu, Karpova, T.D., Anyfrieva, O.I.

“…•Single crystal of Li2W0.975Mo0.025O4 has been grown by low-temperature-gradient Czochralski technique.•Formation enthalpy for Li2W0.975Mo0.025O4 single…”
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Enthalpy of formation and lattice energy of bismuth perrhenate doped by neodymium and indium oxides by Matskevich, N.I., Wolf, Th, Adelmann, P., Semerikova, A.N., Gelfond, N.V., Zolotova, E.S., Matskevich, M. Yu

“…•We measured formation enthalpy of Bi12.5Nd1.4In0.1ReO24.5.•We calculated lattice energy for Bi12.5Nd1.4In0.1ReO24.5.•Lattice energy has linear character from…”
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Enthalpy of formation of (In, Gd)-doped barium cerate by Matskevich, N.I., Wolf, Th, Adelmann, P., Semerikova, A.N., Anyfrieva, O.I.

“…•BaCe0.7Gd0.2In0.1O2.85 was prepared by solid-state reaction.•The standard formation enthalpy was determined.•The stabilization energy (ΔstH°) was…”
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