Thesis presented February 10, 2012

Abstract:
Semiconductor (SC) nanowires (NMs) have been identified as important components for future electronic and sensor nanodevices. They are produced using a metal catalyst (Au) that forms a low eutectic point with the SC phase (Si) and enables their nucleation and their growth at low temperatures. The aim of this study is to investigate the formation, the structure as well as the behaviour of such liquid eutectic droplets in interaction with the substrates on which the futur NMs properties will later depend. This work has been performed in-situ, using synchrotron radiation which is the perfect tool to characterize this mechanism at the atomistic scale. The eutectic droplets have been obtained through the dewetting of thin gold films. This process has been found to modify the epitaxial relationships between the gold and the silicon substrate. The obtained droplets are accompanied by a wetting layer (WL) whose conditions of formation as well as atomic structure, which turned to be a surface reconstruction, have been determined. During the cooling process, the supercooling effects in such AuSi eutectic droplets have been found to be enhanced in the presence of this reconstruction. They are explained by the specific structure of the reconstruction which is likely to stabilize the liquid phase. Similar experiments on other systems (Au-Ge or Al-Si) were performed and a synthesis has been made in order to present the current knowledge on this topic in comparison with the results of this work.

Keywords:
X-ray diffraction, Surface reconstruction, Eutectic, Semiconductor nanowires

On-line thesis.