Dresden 2014 – scientific programme

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O: Fachverband Oberflächenphysik

O 36: Posters: Bio/organic Molecules on Surfaces, Graphene, Solid/liquid interfaces, Metal Substrates, Electronic Structure Theory

O 36.104: Poster

Tuesday, April 1, 2014, 18:30–22:00, P1

CPMD simulations of oxidized Si clusters — •Paul Schwarz¹, Carola Kryschi², and Bernd Meyer¹ — ¹Interdisciplinary Center for Molecular Materials and Computer-Chemistry-Center, FAU Erlangen-Nürnberg — ²Physical Chemistry, FAU Erlangen-Nürnberg

The oxidation of small Si clusters was studied by Car-Parrinello Molecular Dynamics (CPMD) simulations in order to obtain reasonable structures for oxygen-passivated clusters with a crystalline Si core with size of about 1 nm. The method of simulated annealing was applied to allow for atomic rearrangements and to find favorable low-energy configurations. The clusters were equilibrated at different temperatures, quenched to room temperature and finally relaxed. By increasing stepwise the amount of oxygen, four types of oxidized Si₆₃ clusters with composition of Si₆₃O₂₄, Si₆₃O₃₂, Si₆₃O₄₈, and Si₆₃O₆₈ were obtained.

It is found that at low oxidation clusters with crystalline and amorphous Si core are rather similar in energy. The energy of the clusters is lowered by formation of free-standing SiO₂ groups at the surface, under the condition that the crystalline core is retained during the simulation. These free-standing SiO₂ groups could be precursors for the formation of surface silanone groups. The crystalline core is furthermore stabilized by increasing oxidation. Finally, hydrogen and methyl groups were added at the surface of pure and oxidized Si clusters, with the aim of finding vibrations that could explain the vibronic structure in the photoluminescence spectra of synthesized Si clusters.