Synthesis and Characterization of Barium-Iron Oxide Based Neodymium, Gadolinium and Praseodymium Doped Ceramic Materials

Asian Journal of Chemical Sciences Pub Date : 2021-12-14 DOI:10.9734/ajocs/2021/v10i419105
A. Aytimur, S. Koçyiğit, I. Uslu
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Abstract

Neodymium, gadolinium, and praseodymium doped barium-iron oxide ceramic materials were synthesized by polymeric precursor method. No carbon contents or the moisture was observed in infrared spectra of the ceramics. Neodymium and gadolinium doped ceramics were crystallized in cubic lattice form, while praseodymium doped ceramic was formed in hexagonal lattice. Same results were observed from SEM images, Neodymium and gadolinium doped ceramics had similar morphological structures, but praseodymium doped ceramics had slightly different morphology. Neodymium and gadolinium doped ceramics consisted of grain-like structure, while praseodymium doped ceramic material consisted of both grain-like and pillar-like crystal structures.
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氧化钡-铁基掺钕、钆、镨陶瓷材料的合成与表征
采用聚合前驱体法制备了掺钕、钆和镨的氧化钡铁陶瓷材料。在红外光谱中未观察到碳含量和水分。钕和钆掺杂陶瓷以立方晶格形式结晶,而镨掺杂陶瓷以六边形晶格形式结晶。从SEM图像中观察到同样的结果,钕掺杂和钆掺杂陶瓷具有相似的形态结构,而镨掺杂陶瓷的形态略有不同。掺钕和钆陶瓷为颗粒状结构,而掺镨陶瓷材料为颗粒状和柱状晶体结构。
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Asian Journal of Chemical Sciences
Asian Journal of Chemical Sciences
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