Growth of plate-type β-FeSi 2 single crystals by optimization of composition ratio of source materials

Abstract

The importance of the β-FeSi 2 bulk single crystals has increased not only to investigate the intrinsic properties of β-FeSi 2 but also to use it as substrate of β-FeSi 2 thin films for optical devices. Though single crystals of β-FeSi 2 are grown by chemical vapor transport (CVT) method, most of those crystals are needle-like and widths of those flat surfaces are 0.5 mm or less. In order to understand the mechanism of the growth process of β-FeSi 2 by the CVT method and to obtain the conditions for large size crystal growth, we have carried out in-situ observations of the crystal growth by using a transparent electric furnace. Based on the experimental data, we have proposed the most likely reaction process, FeI 2(g) + 2SiI 4(g)→FeSi 2(s) + 5I 2(g), and we found that the crystal growth progresses under the environment where the FeI 2 gas is insufficient compared with a suitable ratio of FeI 2/SiI 4. Then, to raise the partial pressure of FeI 2 gas, the composition ratio of Fe to Si for the source material was increased and we have obtained the plate-type β-FeSi 2 crystals that exceeded a few square millimeters in size.