Влияние замещения ионами Bi-=SUP=-3+-=/SUP=- на структурно-фазовое состояние и особенности магнитной структуры твердого раствора BaFe-=SUB=-12-x-=/SUB=-Bi-=SUB=-x-=/SUB=-O-=SUB=-19-=/SUB=-

Физика твердого тела Pub Date : 2023-01-01 DOI:10.21883/ftt.2023.08.56148.104

Алексей Валентинович Труханов, C.В. Труханов, В. В. Коровушкин, В. Г. Костишин, В. А. Турченко, Т. И. Зубарь, D. Sangaa, Н.В. Абметко, И.А. Греков, Д Б Мигас, Дарья Ивановна Тишкевич

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Abstract

The results of studies of the features of the phase composition, crystal and magnetic structure of Bi-substituted barium hexaferrite BaFe12-xBixO19 (0.1≤ x≤ 1.2) by methods of Mossbauer spectroscopy, X-ray phase analysis, as well as image analysis by scanning electron microscopy are presented. Samples of Bi-substituted hexaferrites - BaFe12-xBixO19 (where x=0.1; 0.3; 0.6; 0.9 and 1.2) were synthesized by the method of solid-phase reactions with double annealing (at T=1100oC for 6 h) and intermediate grinding (for 0.5 h). The X-ray phase analysis allowed us to establish the limit of substitution of Fe3+ ions by Bi3+ ions. It has been shown that at a low level of substitution (x≤0.3) there are no impurity phases detected and the samples are characterized by a single-phase state with the spatial group P63/mmc. When the degree of substitution increases (x>0.3) the formation of impurity phases is noted, which can be explained by the difficulties of ion diffusion in the process of solid-phase synthesis, as well as the formation of defects in the structure of magentoplumbite due to the large ionic radius of Bi3+. As impurity phases in the studied compositions (x>0.3) Marked: BiFeO3 (Pr. Gr. Pnma); BiO2 (Pr. Gr. Fm-3m); BaBi2O6 (Pr. Gr. R-3) and BaO0,5Bi1,5O2,16 (Pr. Gr. Im-3m). The content of the main phase (Pr. Gr. P63mmc) at the same time decreases from 95.11 to 88.27 vol.% when increasing x from 0.6 to 1.2, respectively. The analysis performed by the method of Messbaurov spectroscopy showed that all Fe ions have a charge of 3+. And all parameters lie within the values characteristic of Fe3+ ions corresponding to the coordination of polyhedra: 12k. 4f2, 2a - octahedra, 4f1 - tetrahedron, and 2b - bipyramide. It is possible to single out a small monotonous decrease only for the 12k position. The analysis of SEM images showed an increase in the average particle size up to 10 mkm, depending on the concentration of bismuth oxide during the synthesis of hexaferrite.

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离子取代-=SUP -3+-= - SUP -= -对BaFe- x-= -12-x-= =SUB -x-=

采用穆斯堡尔谱、x射线相分析和扫描电镜图像分析等方法研究了双取代钡六铁体BaFe12-xBixO19(0.1≤x≤1.2)的物相组成、晶体结构和磁性结构特征。双取代六铁体样品- BaFe12-xBixO19(其中x=0.1;0.3;0.6;采用双退火(温度为1100℃，处理时间为6 h)和中间研磨(处理时间为0.5 h)的固相反应方法合成了Fe3+和1.2)，通过x射线相分析确定了Bi3+离子取代Fe3+离子的极限。结果表明，在低取代水平(x≤0.3)下，没有检测到杂质相，样品具有空间群P63/mmc的单相态。当取代度增加(x>0.3)时，杂质相形成，这可以解释为固相合成过程中离子扩散困难，以及Bi3+离子半径大导致镁铅石结构中形成缺陷。在所研究的组合物中作为杂质相(x>0.3)标记:BiFeO3 (Pr. Gr. Pnma);BiO2 (Pr. Gr. Fm-3m);BaBi2O6 (Pr. Gr. R-3)和bao0,5bi1,50o2,16 (Pr. Gr. Im-3m)。当x从0.6增加到1.2时，主相(Pr. Gr. P63mmc)的含量分别从95.11%降低到88.27%。用梅斯鲍罗夫光谱法分析表明，所有的铁离子都带3+电荷。所有参数均在多面体配位所对应的Fe3+离子特征值12k范围内。4f2, 2a -八面体，4f1 -四面体，2b -双锥体。只有在12k位置才有可能出现一个小的单调减少。SEM图像分析显示，在合成六铁体过程中，根据氧化铋的浓度，平均粒径增加了10 mkm。

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