Chauhana, Amit Kumar Singh and Niazi, Asad and Nair, Lekha and Gupta, Govind (2015) In-induced stable ordering of stepped Si(553) surface. Applied Surface Science, 337. pp. 145-150. ISSN 0169-4332

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Abstract

The growth mechanism and adsorbate-induced surface morphology of metal atoms on semi conducting surfaces crucially determines the electronic and physicochemical properties of thesemetal/ semiconductor systems. In this study, we investigate the kinetically controlled growth of indium( In) atoms on the high index stepped Si(553)-7 x 7 surface and the thermal stability of various novel-Ininduced superstructural phases formed during adsorption/desorption process. Auger electron spectroscopy analysis reveals that In adsorption at room temperature (RT) and at 350 degrees C, with a controlled incident flux of 0.0016 ML/s, proceeds in the Stranski-Krastanov growth mode where two dimensional( 2D)/three dimensional (3D) islands are formed on top of two complete monolayers. At higher substrate temperature up to 450 degrees C, the growth of In atoms occurs in the form of islands on the bare Si(553) surface, and In coverage is limited to the sub-monolayer regime. During the thermal desorption of the RT grown In/Si(553) system, the In clusters rearrange themselves and an unusual "cluster to layer" transformation occurs on top of the stable monolayer. In situ low energy electron diffraction analysis during adsorption and desorption shows the development of various coverage and temperature dependent Ininduced superstructural phases on Si(553) surface, such as: (8 x 2) after annealing at 520 degrees C with coverage 0.5 ML, (8 x 4) after annealing at 580 degrees C (similar to 1 ML coverage) and (553)-7 x 1 + (111)-root 3 x root 3-R30 degrees at 0.3 ML (630 degrees C). These adsorbate-induced superstructural phases could potentially be utilized as templates for pattern assisted growth of various exotic 1D/2D structures for optoelectronics and photovoltaic applications.

Item Type: Article
Uncontrolled Keywords: Si(553) Indium Adsorption Thermal desorption AES
Subjects: Chemistry > Physical Chemistry
Materials Science
Applied Physics/Condensed Matter
Divisions: UNSPECIFIED
Depositing User: Dr. Rajpal Walke
Date Deposited: 28 Sep 2016 05:57
Last Modified: 28 Sep 2016 05:57
URI: http://npl.csircentral.net/id/eprint/1865

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