Influence of nanostructure formation on the crystal structure and morphology of epitaxially grown Gd2O3 on Si(001)

辉长岩 结晶学 材料科学 成核 巴(单位) 单斜晶系 晶体结构 外延 Crystal(编程语言) 形态学(生物学) 氧化物 图层(电子) 化学 纳米技术 冶金 有机化学 程序设计语言 气象学 物理 生物 遗传学 计算机科学
作者
Philipp Gribisch,Jan Schmidt,H. J. Osten,A. Fissel
出处
期刊:Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials [Wiley]
卷期号:75 (1): 59-70 被引量:5
标识
DOI:10.1107/s2052520618017869
摘要

The influence of growth conditions on the layer orientation, domain structure and crystal structure of gadolinium oxide (Gd2O3) on silicon (001) has been investigated. Gd2O3 was grown at low (250°C) and high (850°C) temperatures with different oxygen partial pressure as well as a temperature ramp up during growth. At low temperature, the cubic bixbyite type of crystal structure with space group Ia{\bar 3} was grown at low oxygen partial pressure. The layers consist of two domains oriented orthogonal to each other. The epitaxial relationships for the two domains were found to be Gd2O3(110)[001]||Si(001)[110] and Gd2O3(110)[001]||Si(001)[{\bar 1}10], respectively. Applying additional oxygen during growth results in a change in crystal and domain structures of the grown layer into the monoclinic Sm2O3-type of structure with space group C2/m with (20\bar 1) orientation and mainly two orthogonal domains with the epitaxial relationship Gd2O3(20\bar 1)[010]||Si(100)〈110〉 and a smooth surface morphology. Some smaller areas have two intermediate azimuthal orientations between these variants, which results in a six-domain structure. The change in crystal structure can be understood based on the Gibbs-Thomson effect caused by the initial nucleation of nanometre-sized islands and its variation in diameter with a change in growth conditions. The crystal structure remains stable even against a temperature ramp up during growth. The layers grown at high temperature exhibit a nanowire-like surface morphology, where the nanowires have a cubic crystal structure and are aligned orthogonal to each other along the 〈110〉 in-plane directions. An increase in oxygen supply results in a reduced length and increased number of nanowires due to lower adatom mobility. The results clearly indicate that both kinetic and thermodynamic factors have a strong impact on the crystal structure, epitaxial relationship and morphology of the grown layers.
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