Barium hexaboride (BaB6) crystals were electrochemically synthesized using molten salt technique. Barium carbonate (BaCO3) and boron trioxide (B2O3) was used as reactants. Lithium fluoride (LiF) was used as the supporting electrolyte. The molten electrolyte consisted of 50 wt % BaCO3 and B2O3 with different stiochiometric ratios of Ba and B and 50 wt % lithium fluoride. DTA/TGA studies were made to determine the eutectic point of the melt and it was found to be around 821oC. The electrolytic cell had a high purity graphite crucible, which served as the electrolyte holding vessel and also as the anode for the electrolysis. An electro-polished molybdenum rod was employed as the cathode. The electrolysis was performed at 870oC under argon atmosphere, at current densities ranging from 0.2-0.5 A/cm2. The electrodeposited crystals were examined for the phase identification using X-ray diffraction technique. The AAS and the chemical analysis were made for the determination of chemical composition of the synthesized crystals. The purity of the crystals was also assessed using ICP-MS, XRF and EDX, which reveal that the crystals were associated with trace amount of impurities like oxygen, carbon and iron. The compound is found to be more than 99 % pure. The morphology of the crystals was examined using Scanning Electron Microscopy (SEM). From the above studies, it is concluded that the molten salt process is a simple preparative procedure for the synthesis of sub-micron size barium hexaboride crystals.
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机译:采用熔融盐技术电化学合成了六硼化钡(BaB6)晶体。碳酸钡(BaCO3)和三氧化硼(B2O3)被用作反应物。氟化锂(LiF)用作支持电解质。熔融电解质由50%(重量)的BaCO3和B2O3(Ba和B的化学计量比不同)和50%(重量)的氟化锂组成。进行了DTA / TGA研究以确定熔体的共晶点,发现其约为821oC。电解池具有高纯度的石墨坩埚,其用作电解质容纳容器并且还用作电解的阳极。将电抛光的钼棒用作阴极。电解在氩气氛下于870oC下以0.2-0.5 A / cm2的电流密度进行。使用X射线衍射技术检查电沉积晶体的相识别。进行了原子吸收光谱和化学分析,以确定合成晶体的化学组成。还使用ICP-MS,XRF和EDX评估了晶体的纯度,这表明晶体与痕量杂质(如氧,碳和铁)有关。发现该化合物的纯度超过99%。使用扫描电子显微镜(SEM)检查晶体的形态。从以上研究可以得出结论,熔融盐工艺是用于合成亚微米尺寸六硼化钡晶体的简单制备方法。
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