在蓝宝石上生长高质量钌薄膜

L. Majer, S. Smink, W. Braun, Hongguang Wang, P. A. van Aken, J. Mannhart, F. Hensling
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引用次数: 0

摘要

我们开发并优化了一种方法,可以生长出质量前所未有的钌薄膜。我们的三步工艺让人联想到固相外延。首先,通过原位退火,在富铝 √31 × √31R ± 9° 重构处终止 c 切蓝宝石基底。其次,通过激光蒸发 Ru 棒,在低温下沉积出三维结构的外延 Ru 薄膜。第三,通过高温退火对由此获得的薄膜进行外延转化。X 射线衍射研究表明,所获得的 15-60 纳米厚的薄膜具有良好的结晶性:摇摆曲线的峰宽比已发表的最佳薄膜的峰宽小一个数量级。扫描透射电子显微镜和电子能量损失研究表明,蓝宝石基底和平面 Ru 薄膜之间的界面在原子上非常锐利,相互混合非常有限。这些结果表明,后退火工艺可用于在绝缘基底上制备高质量的元素金属外延薄膜。
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 high-quality ruthenium films on sapphire
We have developed and optimized a method to grow ruthenium films of unprecedented quality. Our three-step process is reminiscent of solid-phase epitaxy. First, c-cut sapphire substrates are terminated at their Al-rich √31 × √31R ± 9° reconstruction by in situ annealing. Second, 3D structured epitaxial Ru films are deposited at low temperatures by laser evaporation of Ru rods. Third, the films, thus, obtained are epitaxially transformed by high-temperature annealing. X-ray diffraction studies reveal good crystallinity of the obtained 15–60 nm-thick films: peak widths of the rocking curve are one order of magnitude smaller than those of the best published films. Scanning transmission electron microscopy and electron energy loss studies show that the interface between the sapphire substrates and the flat Ru films is atomically sharp with very limited intermixing. These results demonstrate the usefulness of postanneal processes for producing high-quality epitaxial films of elemental metals on insulating substrates.
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