Oxidation of Si nanocrystals fabricated by ultra-low energy ion implantation in thin SiO2 layers

The effect of annealing in diluted oxygen on the structural characteristics of thin silicon dioxide layers with embedded Si nanocrystals fabricated by ultra-low energy ion implantation (1 keV) is reported. The nanocrystal characteristics (size, density, coverage) have been measured by spatially resolved Electron Energy Loss Spectroscopy using the spectrum-imaging mode of a Scanning Transmission Electron Microscope. Their evolution has been studied as a function of the annealing duration under N2+O2 at 900°C. An extended spherical Deal-Grove model for the self-limiting oxidation of embedded silicon nanocrystals has been carried out. It shows that stress effects, due to the deformation of the oxide, slows down the chemical oxidation rate and leads to a self-limiting oxide growth. The model predictions show a good agreement with the experimental results.

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Physique [physics]

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https://hal.science/hal-01736087

Soumis le : vendredi 16 mars 2018-16:07:55

Dernière modification le : jeudi 11 avril 2024-13:08:11

Dates et versions

hal-01736087 , version 1 (16-03-2018)

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HAL Id : hal-01736087 , version 1
DOI : 10.1557/PROC-830-D6.6

Citer

H. Coffin, Caroline Bonafos, Sylvie Schamm-Chardon, Nikolay Cherkashin, Marc Respaud, et al.. Oxidation of Si nanocrystals fabricated by ultra-low energy ion implantation in thin SiO2 layers. Symposium D – Materials and Processes for Nonvolatile Memories, 2005, indéterminée, Unknown Region. pp.281-286, ⟨10.1557/PROC-830-D6.6⟩. ⟨hal-01736087⟩

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