Lugstein A, Hyun Y J, Steinmair M, Dielacher B, Hauer G, Bertagnolli E
Institute for Solid State Electronics, TU-Wien, Florag. 7, A-1040 Vienna, Austria.
Nanotechnology. 2008 Dec 3;19(48):485606. doi: 10.1088/0957-4484/19/48/485606. Epub 2008 Nov 12.
We report on the influence of the surface pretreatment for vapor-liquid-solid growth of epitaxial silicon nanowires with gold catalyst and silane precursor on Si(111) substrates. In this paper we make it obvious that a thin native oxide layer on the Si substrate-as is present under most technological conditions-or a thin layer of oxide formed on top of the catalytic gold particle restrain nucleation and nanowire growth. High resolution transmission electron microscopy, and electron energy loss spectroscopy were utilized to demonstrate Si diffusion from the substrate through the catalytic Au layer and further the formation of a thin oxide layer atop. Based on this observation we present a sample pretreatment practice, making the catalyst insensitive for further oxide formation, thereby preserving epitaxy for nanowire synthesis.
我们报道了在Si(111)衬底上,采用金催化剂和硅烷前驱体通过气-液-固生长外延硅纳米线时表面预处理的影响。在本文中,我们明确指出,在大多数工艺条件下存在于硅衬底上的薄原生氧化层,或在催化金颗粒顶部形成的薄氧化层,会抑制成核和纳米线生长。利用高分辨率透射电子显微镜和电子能量损失谱来证明硅从衬底通过催化金层扩散,并进一步在顶部形成薄氧化层。基于这一观察结果,我们提出了一种样品预处理方法,使催化剂对进一步的氧化形成不敏感,从而保留纳米线合成的外延性。
