Phase transition peculiarities in LAMOX single crystalsстатья
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Дата последнего поиска статьи во внешних источниках: 18 июля 2013 г.
Аннотация:The series of oxide-ion-conducting La2Mo2O9 single crystals, undoped and doped with Ca, Bi, W, Nb, Zn and V (LAMOX), was grown by the flux method in the system La2O3-MoO3, which has allowed us to use polarization microscopy for the identification of phases. Phase transition peculiarities in the LAMOX family have been studied by polarization microscopy and calorimetry. The results demonstrate that both the monoclinic phase (a), which is stable at room temperature, and the metastable cubic phase (b(ms)), or a mixture of these phases, may exist at room temperature, depending on the post-growth cooling rate and the nature of the dopant at low doping level. On heating, all of the quenched crystals undergo b(ms) -> a (450 degrees C) and a -> b (500 - 560 degrees C) phase transitions (where b designates the stable cubic phase). At heavy doping levels, the high-temperature transition is suppressed and the crystals (La2Mo1.95V0.05Oy, La2Mo1.84W0.16Oy in our case) are found in the cubic state. The thermal peak near 450 degrees C at high doping level is not associated with a b(ms) -> a transition and may be the result of defect association/dissociation in the cubic crystals. The thermal history, nature of the dopant and doping level are shown to influence the phase transition sequence and type.