Paper
14 November 2003 Surface and confinement effects on the optical and structural properties of silicon nanocrystals
Stefano Ossicini, Rita Magri, Elena Degoli, Marcello Luppi, Eleonora Luppi
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Abstract
In this work we investigate, by first-principles calculations, the structural, electronic and optical properties of: (1) oxygenated silicon-based nanoclusters of different sizes in regime of multiple oxidation at the surface, and (2) hydrogenated Si nanoclusters (H-Si-nc) in their ground and excited state configurations. Structural relaxations have been fully taken into account in all cases through total energy pseudopotential calculations within density functional theory. In the first case we have varied systematically the number of Si=O bonds at the cluster surface and found a nonlinear reduction of the energy gap with the Si=O bond number. A saturation limit is reached, which allows us to provide a consistent interpretation of the photoluminescence (PL) redshift observed in oxidized porous silicon samples. Our results help also to explain some very recent findings on the single silicon quantum dot photoluminescence bandwidth. In the second case, after a preliminary study of the clusters stability, the properties of the ground and excited states have been compared varying the cluster dimensions from 1 to 29 Si atoms. Ab-initio calculations of the Stokes shift as a function of the cluster dimension will be presented. A structural model linked to the four level scheme recently invoked to explain the experimental outcomes relative to the observed optical gain in Si-nc embedded in a SiO2 matrix will be also suggested.
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Stefano Ossicini, Rita Magri, Elena Degoli, Marcello Luppi, and Eleonora Luppi "Surface and confinement effects on the optical and structural properties of silicon nanocrystals", Proc. SPIE 5222, Nanocrystals, and Organic and Hybrid Nanomaterials, (14 November 2003); https://doi.org/10.1117/12.508481
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KEYWORDS
Silicon

Hydrogen

Chemical species

Nanocrystals

Oxygen

Absorption

Crystals

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