KI-KCl熔体在温度梯度下生长Cu2ZnSnSe4晶体

IF 0.3 Q4 CHEMISTRY, MULTIDISCIPLINARY
A. Bakhadur, B. Uralbekov, K. Kokh
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引用次数: 0

摘要

在本工作中,首次证明了通过在温度梯度下在KI-KCl熔体溶液中重结晶多晶材料来制备CZTSe(Cu2ZnSnSe4)单晶的两步方法。在第一步中,通过在1000°C下直接融合元素Cu、Zn、Sn和Se,合成了由金属硒化物混合物组成的多晶材料。接下来,在100°C的温度梯度下进行再结晶过程,而冷区的温度为750°C。用能量色散X射线和拉曼光谱研究了晶体的相组成和化学成分。结果表明,电荷组成不影响所获得的晶体的组成。根据热区中剩余电荷的量,可以说是非常低的再结晶速率和低的产品产率。对来自冷区的晶体的元素组成的分析显示,即使在一次实验中也存在高度的不均匀性,这表明需要优化实验参数。另一方面,根据主峰半高处的全线宽,可以认为所获得的样品在结构上具有高度有序性,并且适合于测量物理特性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Growth of Cu2ZnSnSe4 crystals from a KI-KCl melt-solution in a temperature gradient
In this work, a two-step method for preparation of CZTSe (Cu2ZnSnSe4) single crystals was demonstrated for the first time by recrystallization of a polycrystalline material in a KI-KCl melt-solution in a temperature gradient. At the first step, a polycrystalline material consisting of a mixture of metal selenides was synthesized by direct fusion of elemental Cu, Zn, Sn, and Se at 1000°C. Next, recrystallization process was carried out at a temperature gradient of 100°C, while the temperature of the cold zone was 750°C. The phase and chemical composition of the crystals were studied by energy dispersive X-ray and Raman spectroscopy. It was shown that the charge composition does not affect the composition of the obtained crystals. According to the amount of the remaining charge in the hot zone, one can speak of a very low recrystallization rate and a low product yield. Analysis of the elemental composition of crystals from the cold zone revealed a high inhomogeneity even in one experiment, which indicates the need to optimize the experimental parameters. On the other hand, according to the full line width at half height of the main peak, it can be argued that the obtained samples have a high degree of order in the structure and are suitable for measuring of physical characteristics.
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