TY - JOUR A1 - Yusenko, Kirill A1 - Petrushina, M. A1 - Dedova, E. A1 - Portnaygin, A. A1 - Papynov, E. A1 - Filatov, E. A1 - Gubanov, A. T1 - Pressure induced change in the ZrWMoO8 N2 - In this paper we report high-pressure synchrotron x-ray powder diffraction data for the cubic ZrWMoO8. For the first time, extensive structural study of ZrWMoO8 solid solution as a function of pressure was performed. This study shows that disordered cubic-ZrWMoO8 (space group Pa) transforms to ordered cubic-ZrWMoO8 (space group P) at low pressure. A further high-pressure influence leads followed by amorphization of the sample at 2.2 GPa. All transformations are irreversible. Our work will have high impact in the design of new composite materials with well-defined thermal expansion, especially for applications under extreme conditions and high mechanic stress. KW - Phase transition KW - High-pressure KW - Complex oxides PY - 2020 DO - https://doi.org/10.1016/j.matpr.2019.12.141 VL - 25 IS - 3 SP - 428 EP - 430 PB - Elsevier Ltd. AN - OPUS4-50822 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Yusenko, Kirill A1 - Petrushina, M. A1 - Dedova, E. A1 - Portnaygin, A. A1 - Papynov, E. A1 - Filatov, E. A1 - Korenev, S. A1 - Gubanov, A. T1 - Effect of temperature and pressure on mixed oxide solid solutions N2 - A hydrothermal synthesis of ZrW2-xMoxO8 (0 ≤ x ≤ 2) from the corresponding precursors is reported in this paper. High-temperature and high-pressure data are presented for the sample with x = 1.6. An increase in temperature initiates the phase transition from tetragonal precursor to orthorhombic-ZrW2-xMoxO8 (x = 1.6) with the subsequent formation of cubic and trigonal phases. The thermolysis parameter of the disordered cubic ZrW2-xMoxO8 (x = 1.6) phase is 803 K, and the coefficient of thermal expansion is α = -4.6∙10–6 K−1. Data on ZrW2-xMoxO8 (x = 1.6) structure as a function of pressure are obtained for the first time. Pressureinduced changes from cubic to orthorhombic ZrW2-xMoxO8 (x = 1.6) phase at 1.38 GPa are observed. The sample amorphization is irreversible during decompression. KW - Phase transition KW - High-pressure KW - Complex oxides PY - 2020 DO - https://doi.org/10.1016/j.inoche.2020.107965 VL - 117 SP - 107965 PB - Elsevier B.V. AN - OPUS4-50821 LA - eng AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER - TY - JOUR A1 - Pechenyuk, S A1 - Vikulova, E A1 - Semushina, Y A1 - Baidina, I A1 - Filatov, E A1 - Yusenko, Kirill T1 - Isostructurality and Thermal Properties in the Series of Double Complex Salts [M-1(NH3)(6)][M-2(C2O4)(3)]center dot 3H(2)O (M-1 = Co, Ir, M-2 = Fe, Cr) T1 - ИЗОСТРУКТУРНОСТЬ И ТЕРМИЧЕСКИЕ СВОЙСТВА В РЯДУ ДВОЙНЫХ КОМПЛЕКСНЫХ СОЛЕЙ СОСТАВА N2 - Preparation of new bimetallic compounds, including double complex salts (DCSs), containing both a platinumgroup metal and a transition metal of the fourth period is of great interest since these compounds can act as precursors of bimetallic materials. One example of using such compounds is the preparation of ultrafine particles of solid solutions of metals or intermetallic compounds on various supports to fabricate highly efficient catalysts with a low content of noble metals. Compounds containing coordinated oxalate anions are important objects of synthetic chemistry and interesting precursors. For example, a lot of attention is given to salts with [M(C2O4)2]2– anions, where M = Co, Ni, Cu, Pt, Pd. On the one hand, the uniqueness of oxalate coordinated anions is due to the fact that they are easily obtained and are stable both in aqueous solutions and in the solid phase; on the other hand, they are thermally decomposed at relatively low temperatures, which makes them promising precursors for the fabrication of metallic and oxide materials. N2 - Синтезирован ряд из четырех изоструктурных двойных комплексных солей, построенных на основе катионов [М1(NH3)6]3+ и анионов [M2(C2O4)3]3-, где M1 = Co, Ir, M2 = Fe, Cr. Соли кристаллизуются в гексагональной пространственной группе симметрии P`3c1. Согласно данным термического анализа в атмосфере аргона, термическая устойчивость (температуры начала разложения обезвоженных продуктов) изучаемых соединений зависит от природы комплексного трисоксалатного аниона и увеличивается в рядах [Ir(NH3)6][Co(C2O4)3] < [Ir(NH3)6][Fe(C2O4)3] < [Ir(NH3)6][Cr(C2O4)3] < [Ir(NH3)6][Ir(C2O4)3] и [Co(NH3)6][Co(C2O4)3] < [Co(NH3)6][Fe(C2O4)3] < [Co(NH3)6][Cr(C2O4)3] < [Co(NH3)6][Ir(C2O4)]. При этом при одинаковом анионе соли гексаммина иридия(III) более устойчивы по сравнению с солями кобальта(III)). При термическом разложении солей [Co(NH3)6][Fe(C2O4)3]·3H2O и [Ir(NH3)6][Fe(C2O4)3] 3H2O в атмосфере водорода образуются твердые растворы Co0,5Fe0,5 и Ir0,5Fe0,5 соответственно. KW - Single-source precursors KW - Double complex salts KW - Catalysts PY - 2019 UR - https://doi.org/10.1134/S0022476619070060 DO - https://doi.org/10.26902/JSC_id42958 VL - 60 IS - 7 SP - 1110 EP - 1119 PB - Springer AN - OPUS4-48925 LA - mul AD - Bundesanstalt fuer Materialforschung und -pruefung (BAM), Berlin, Germany ER -