New Samarium Oxotellurites: Synthesis and Characteristic

A. Toibek, K. Rustembekov, Vitaly N. Fomin, D. Kaikenov
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Abstract

We synthesized samarium oxotellurites SmMTeO4.5 (M — Mg, Ba) by the method of ceramic technology with solid-phase interaction (800–1200 °С) of Sm2O3 and TeO2 oxides with MgCO3 and BaCO3 carbonates. The compounds were characterized by X-ray and electrophysics methods. It has been established that the syn-thesized compounds crystallize in the tetragonal syngony with the following crystallographic characteristics: SmMgTeO4.5 — a = 12.226; c = 5.783 Å, V0un.cell = 864.38 Å3, Z = 4, ρxray. = 2.876, ρpycn. = (2.874±0.002) g∙cm-3; SmBaTeO4.5 — a = 12.717; с = 6.132Å, V0un.cell = 991.62Å3, Z = 4, ρxray. = 3.264, ρpycn. = (3.260±0.004) g∙cm-3; for both tellurites α = β = γ = 90°. The experimental and calculated values of 2 Th and d-sp, X-ray and pycnometric densities, as well as theoretical and experimental values of unit cell volumes are agreed satisfac-torily. Thus, we can confirm correctness and reliability of the results of indexing X-ray patterns of new sa-marium oxotellurites. We found that increase in the ionic radii from Mg to Ba increases the lattice parameters of the synthesized oxotellurites. Oxotellurites are crystallized in the structural types of distorted perovskite Pm3m. Based on the given study samarium oxotellurites can have semiconductor and ferroelectric properties.
新型氧化碲钐的合成与特性研究
利用Sm2O3和TeO2氧化物与MgCO3和BaCO3碳酸盐固相相互作用(800-1200°С),采用陶瓷法合成了SmMTeO4.5 (M - Mg, Ba)氧化碲酸钐。用x射线和电物理方法对化合物进行了表征。结果表明,所合成的化合物以四方共晶方式结晶,具有以下结晶学特征:SmMgTeO4.5 - a = 12.226;c = 5.783 Å, V0un。cell = 864.38 Å3, Z = 4, ρxray。= 2.876, ρpycn。=(2.874±0.002)g∙cm-3;SmBaTeO4.5 - a = 12.717;* * = 6.132Å, V0un。cell = 991.62Å3, Z = 4, ρxray。= 3.264, ρpycn。=(3.260±0.004)g∙cm-3;两种碲的α = β = γ = 90°。2 - Th和d-sp的实验值和计算值、x射线密度和放射密度、单位细胞体积的理论值和实验值都得到了满意的一致。因此,我们可以确认新sa-marium氧化碲的x射线标度结果的正确性和可靠性。我们发现离子半径从Mg到Ba的增加使合成的氧化碲的晶格参数增加。氧化碲矿以扭曲钙钛矿Pm3m的结构类型结晶。基于已知的研究,氧化碲酸钐可以具有半导体和铁电性质。
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