Synthesis and properties of double gadolinium tellurites

Bulletin of the Karaganda University. "Chemistry" series Pub Date : 2021-09-30 DOI:10.31489/2021ch3/67-73

A. Toibek, K. Rustembekov, D. Kaikenov, M. Stoev

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Abstract

For the first time, double gadolinium tellurites of the composition GdMIITeO4.5 (MII — Sr, Ba) were synthesized by the solid-phase method. The solid-phase synthesis of samples was carried out from decrepitated gadolinium (III) and tellurium (IV) oxides, strontium, and barium carbonates according to the standard ceramic technology. The synthesis was carried out in the temperature range of 800-1100 °C. The samples obtained were confirmed by X-ray phase analysis. X-ray phase analysis was carried out on an Empyrean instrument in the XRDML Pananalitical format. The intensity of the diffraction maxima was estimated on a 100-point scale. X-ray diffraction patterns indexing of the powder of gadolinium tellurites — alkaline earth metals studied were carried out by the homology method. The reliability and correctness of the results of indexing the X-ray diffraction patterns are confirmed by the good agreement between the experimental and calculated values of the interplanar distances (d) and the agreement between the values of the X-ray and pycnometric densities. It was found that compounds GdSrTeO4.5 and GdBaTeO4.5 crystallize in the monoclinic system and have the unit cell parameters, namely GdSrTeO4.5 — a = 12.7610, b = 10.4289, c = 8.6235 Å, V° = 1141.83 Å3, β = 95.77°, Z = 5, ρrent. = 3.22, ρpikn. = (3.10±0.09) g/cm3; GdBaTeO4.5 — a = 15.7272, b = 15.8351, c = 7.1393 Å, V° = 1769.72 Å3, β = 95.53°, Z = 8, ρrent = 3.71, ρpick = (3.61±0.10) g/cm3. Using the Landiya method, the standard heat capacities of the compounds were estimated from the calculated values of the standard entropies, and the temperature dependences of the heat capacities of the gadolinium tellurites synthesized were determined in the temperature range of 298–850 K.

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双钆碲化物的合成与性能研究

首次采用固相法合成了GdMIITeO4.5 (MII - Sr, Ba)双钆碲化物。样品的固相合成采用标准的陶瓷工艺，由废钆(III)和碲(IV)氧化物、锶和碳酸钡进行。合成温度范围为800 ~ 1100℃。所得样品经x射线相分析证实。x射线物相分析在天王仪器上以XRDML泛分析格式进行。衍射最大值的强度按100分制估计。用同源性方法对所研究的碲钆-碱土金属粉末的x射线衍射谱进行了标度。平面间距离(d)的实验值与计算值吻合较好，x射线密度值与计量密度值吻合较好，证实了x射线衍射图标引结果的可靠性和正确性。结果表明，化合物GdSrTeO4.5和GdBaTeO4.5在单斜晶系中结晶，其晶胞参数为:GdSrTeO4.5 - a = 12.7610, b = 10.4289, c = 8.6235 Å， V°= 1141.83 Å3， β = 95.77°，Z = 5， ρrent。= 3.22， ρ匹克。=(3.10±0.09)g/cm3;GdBaTeO4.5 - a = 15.7272, b = 15.8351, c = 7.1393 Å， V°= 1769.72 Å3， β = 95.53°，Z = 8， ρrent = 3.71， ρpick =(3.61±0.10)g/cm3。采用Landiya法，根据标准熵的计算值估算了化合物的标准热容，并确定了合成的碲化钆在298 ~ 850 K温度范围内的热容与温度的关系。

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Bulletin of the Karaganda University. "Chemistry" series

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