Abstract
Mutual solubility of bivalent metal molybdates and tungstates with scheelite structure was theoretically estimated by calculating formation enthalpies and the maximal decomposition temperatures of solid solutions at different temperatures. The theoretical stability of continuous solid solutions in binary systems of bivalent metal molybdates and tungstates was found to be higher than reported literature data. After cooling down continuous substitution solid solution should remain in following systems: CaMoО 4–CdMoО 4, SrMoО 4– MMoО 4 ( M=Ba, Pb), BaMoО 4–PbMoО 4, SrWO 4– MWO 4 ( M=Ca, Pb), and BaWO 4–PbWO 4. There is a probability that at room temperature in systems CaMoО 4–SrMoО 4, CaWO 4–PbWO 4, and BaWO 4–SrWO 4 the single homogeneity region may decompose to limited solid solutions. It was shown experimentally that a continuous series of scheelite-structure solid solutions M 1− x M I x ТO 4 can be formed via citrate synthesis at temperatures below 500°С.
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