A comparison of SiO2 thin-film UVCVD rates and mechanisms from SiH4/O2 and SiH4/N2O precursor gases by surface-sensitive infrared spectroscopy

C. Debauche; C. Licoppe; J. Flicstein

doi:10.1016/0169-4332(93)90524-F

A comparison of SiO₂ thin-film UVCVD rates and mechanisms from SiH₄/O₂ and SiH₄/N₂O precursor gases by surface-sensitive infrared spectroscopy

C. Debauche, C. Licoppe, J. Flicstein

Orange Labs

Research output: Contribution to journal › Article › peer-review

Abstract

With the help of a surface-sensitive multiple internal reflection technique, we have been able to measure photodeposition rates of silica with a low-pressure mercury lamp down to room temperature. At such a temperature, the deposition rates with O₂ or N₂O as the oxidizing precursor are equal. While the oxygen-induced photodeposition rate increases rapidly with temperature in the O₂ system, it saturates at a low value, for a temperature higher than 100°C in the N₂O system. In the first case the surface is covered with hydroxyl groups, adsorbed water, mono- and dihydride species. In the second case we reveal an almost water- and hydroxyl-free bulk and surface material, and the presence of few nitrogen-containing species. These features make the silica films prepared in this latter way an interesting material for various technological processes.

Original language	English
Pages (from-to)	310-316
Number of pages	7
Journal	Applied Surface Science
Volume	69
Issue number	1-4
DOIs	https://doi.org/10.1016/0169-4332(93)90524-F
Publication status	Published - 2 May 1993
Externally published	Yes

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10.1016/0169-4332(93)90524-F

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title = "A comparison of SiO2 thin-film UVCVD rates and mechanisms from SiH4/O2 and SiH4/N2O precursor gases by surface-sensitive infrared spectroscopy",

abstract = "With the help of a surface-sensitive multiple internal reflection technique, we have been able to measure photodeposition rates of silica with a low-pressure mercury lamp down to room temperature. At such a temperature, the deposition rates with O2 or N2O as the oxidizing precursor are equal. While the oxygen-induced photodeposition rate increases rapidly with temperature in the O2 system, it saturates at a low value, for a temperature higher than 100°C in the N2O system. In the first case the surface is covered with hydroxyl groups, adsorbed water, mono- and dihydride species. In the second case we reveal an almost water- and hydroxyl-free bulk and surface material, and the presence of few nitrogen-containing species. These features make the silica films prepared in this latter way an interesting material for various technological processes.",

author = "C. Debauche and C. Licoppe and J. Flicstein",

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T1 - A comparison of SiO2 thin-film UVCVD rates and mechanisms from SiH4/O2 and SiH4/N2O precursor gases by surface-sensitive infrared spectroscopy

AU - Debauche, C.

AU - Licoppe, C.

AU - Flicstein, J.

PY - 1993/5/2

Y1 - 1993/5/2

N2 - With the help of a surface-sensitive multiple internal reflection technique, we have been able to measure photodeposition rates of silica with a low-pressure mercury lamp down to room temperature. At such a temperature, the deposition rates with O2 or N2O as the oxidizing precursor are equal. While the oxygen-induced photodeposition rate increases rapidly with temperature in the O2 system, it saturates at a low value, for a temperature higher than 100°C in the N2O system. In the first case the surface is covered with hydroxyl groups, adsorbed water, mono- and dihydride species. In the second case we reveal an almost water- and hydroxyl-free bulk and surface material, and the presence of few nitrogen-containing species. These features make the silica films prepared in this latter way an interesting material for various technological processes.

AB - With the help of a surface-sensitive multiple internal reflection technique, we have been able to measure photodeposition rates of silica with a low-pressure mercury lamp down to room temperature. At such a temperature, the deposition rates with O2 or N2O as the oxidizing precursor are equal. While the oxygen-induced photodeposition rate increases rapidly with temperature in the O2 system, it saturates at a low value, for a temperature higher than 100°C in the N2O system. In the first case the surface is covered with hydroxyl groups, adsorbed water, mono- and dihydride species. In the second case we reveal an almost water- and hydroxyl-free bulk and surface material, and the presence of few nitrogen-containing species. These features make the silica films prepared in this latter way an interesting material for various technological processes.

U2 - 10.1016/0169-4332(93)90524-F

DO - 10.1016/0169-4332(93)90524-F

M3 - Article

AN - SCOPUS:0027905175

SN - 0169-4332

VL - 69

SP - 310

EP - 316

JO - Applied Surface Science

JF - Applied Surface Science

IS - 1-4

ER -

A comparison of SiO2 thin-film UVCVD rates and mechanisms from SiH4/O2 and SiH4/N2O precursor gases by surface-sensitive infrared spectroscopy

Abstract

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A comparison of SiO₂ thin-film UVCVD rates and mechanisms from SiH₄/O₂ and SiH₄/N₂O precursor gases by surface-sensitive infrared spectroscopy