Room-temperature atmospheric oxidation of Si nanocrystals after HF etching

X. D. Pi; L. Mangolini; S. A. Campbell; U. Kortshagen

doi:10.1103/PhysRevB.75.085423

Room-temperature atmospheric oxidation of Si nanocrystals after HF etching

X. D. Pi, L. Mangolini, S. A. Campbell, U. Kortshagen

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Abstract

The effect of HF etching of the silicon oxide shell covering the surface of Si nanocrystals (NCs) on the subsequent room-temperature atmospheric oxidation of Si-NCs has been investigated by means of photoluminescence measurements, Fourier transform infrared spectroscopy, and electron paramagnetic resonance spectroscopy. After the HF etching, the surface of Si-NCs is found to be H terminated. The HF etching also restructures the surface of Si-NCs. This leads to a decrease in the incorporation of O during subsequent oxidation, which finally results in silicon suboxide Si O1.9. In contrast, without the HF etching stoichiometric Si O2 is formed. A smaller ratio of O to Si in the silicon oxide results in a higher density of defects. This contributes to a more significant oxidation-induced decrease in the intensity of photoluminescence from Si-NCs after the HF etching than without the HF etching.

Original language	English (US)
Article number	085423
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	75
Issue number	8
DOIs	https://doi.org/10.1103/PhysRevB.75.085423
State	Published - Feb 13 2007

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title = "Room-temperature atmospheric oxidation of Si nanocrystals after HF etching",

abstract = "The effect of HF etching of the silicon oxide shell covering the surface of Si nanocrystals (NCs) on the subsequent room-temperature atmospheric oxidation of Si-NCs has been investigated by means of photoluminescence measurements, Fourier transform infrared spectroscopy, and electron paramagnetic resonance spectroscopy. After the HF etching, the surface of Si-NCs is found to be H terminated. The HF etching also restructures the surface of Si-NCs. This leads to a decrease in the incorporation of O during subsequent oxidation, which finally results in silicon suboxide Si O1.9. In contrast, without the HF etching stoichiometric Si O2 is formed. A smaller ratio of O to Si in the silicon oxide results in a higher density of defects. This contributes to a more significant oxidation-induced decrease in the intensity of photoluminescence from Si-NCs after the HF etching than without the HF etching.",

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AU - Pi, X. D.

AU - Mangolini, L.

AU - Campbell, S. A.

AU - Kortshagen, U.

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AB - The effect of HF etching of the silicon oxide shell covering the surface of Si nanocrystals (NCs) on the subsequent room-temperature atmospheric oxidation of Si-NCs has been investigated by means of photoluminescence measurements, Fourier transform infrared spectroscopy, and electron paramagnetic resonance spectroscopy. After the HF etching, the surface of Si-NCs is found to be H terminated. The HF etching also restructures the surface of Si-NCs. This leads to a decrease in the incorporation of O during subsequent oxidation, which finally results in silicon suboxide Si O1.9. In contrast, without the HF etching stoichiometric Si O2 is formed. A smaller ratio of O to Si in the silicon oxide results in a higher density of defects. This contributes to a more significant oxidation-induced decrease in the intensity of photoluminescence from Si-NCs after the HF etching than without the HF etching.

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Room-temperature atmospheric oxidation of Si nanocrystals after HF etching

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