Visible luminescence from porous silicon and siloxene

H. D. Fuchs; M. Stutzmann; M. S. Brandt; M. Rosenbauer; J. Weber; M. Cardona

doi:10.1088/0031-8949/1992/T45/067

Visible luminescence from porous silicon and siloxene

H. D. Fuchs, M. Stutzmann, M. S. Brandt, M. Rosenbauer, J. Weber, M. Cardona

Max Planck Institute for Solid State Research

Publikation: Beitrag in Fachzeitschrift › Artikel › Begutachtung

18 Zitate (Scopus)

Abstract

Infrared transmission and Raman spectra of siloxene (Si₆O₃H₆) and porous Si have been analyzed in terms of the structural composition. Siloxene consists of Si₆-rings interconnected by oxygen and terminated by hydrogen, and corrugated Si(111)-planes saturated by OH and H. The pronounced photoluminescence of siloxene is mainly related to the Si₆-rings. Porous Si shows similar luminescence and almost identical vibrational properties as siloxene, which makes this class of materials a possible candidate for the origin of the luminescence in p-Si. Annealing at temperatures below 300 °C and moderate illumination of siloxene induces the transformation from the Si-plane-like structure to the Si-ring-like structure. Anneal temperatures above 300 °C and intense illumination of both siloxene and p-Si leads to an effusion of hydrogen and an irreversible oxidation of the samples.

Originalsprache	Englisch
Seiten (von - bis)	309-313
Seitenumfang	5
Fachzeitschrift	Physica Scripta
Jahrgang	1992
Ausgabenummer	T45
DOIs	https://doi.org/10.1088/0031-8949/1992/T45/067
Publikationsstatus	Veröffentlicht - 1 Jan. 1992
Extern publiziert	Ja

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10.1088/0031-8949/1992/T45/067

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title = "Visible luminescence from porous silicon and siloxene",

abstract = "Infrared transmission and Raman spectra of siloxene (Si6O3H6) and porous Si have been analyzed in terms of the structural composition. Siloxene consists of Si6-rings interconnected by oxygen and terminated by hydrogen, and corrugated Si(111)-planes saturated by OH and H. The pronounced photoluminescence of siloxene is mainly related to the Si6-rings. Porous Si shows similar luminescence and almost identical vibrational properties as siloxene, which makes this class of materials a possible candidate for the origin of the luminescence in p-Si. Annealing at temperatures below 300 °C and moderate illumination of siloxene induces the transformation from the Si-plane-like structure to the Si-ring-like structure. Anneal temperatures above 300 °C and intense illumination of both siloxene and p-Si leads to an effusion of hydrogen and an irreversible oxidation of the samples.",

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T1 - Visible luminescence from porous silicon and siloxene

AU - Fuchs, H. D.

AU - Stutzmann, M.

AU - Brandt, M. S.

AU - Rosenbauer, M.

AU - Weber, J.

AU - Cardona, M.

PY - 1992/1/1

Y1 - 1992/1/1

N2 - Infrared transmission and Raman spectra of siloxene (Si6O3H6) and porous Si have been analyzed in terms of the structural composition. Siloxene consists of Si6-rings interconnected by oxygen and terminated by hydrogen, and corrugated Si(111)-planes saturated by OH and H. The pronounced photoluminescence of siloxene is mainly related to the Si6-rings. Porous Si shows similar luminescence and almost identical vibrational properties as siloxene, which makes this class of materials a possible candidate for the origin of the luminescence in p-Si. Annealing at temperatures below 300 °C and moderate illumination of siloxene induces the transformation from the Si-plane-like structure to the Si-ring-like structure. Anneal temperatures above 300 °C and intense illumination of both siloxene and p-Si leads to an effusion of hydrogen and an irreversible oxidation of the samples.

AB - Infrared transmission and Raman spectra of siloxene (Si6O3H6) and porous Si have been analyzed in terms of the structural composition. Siloxene consists of Si6-rings interconnected by oxygen and terminated by hydrogen, and corrugated Si(111)-planes saturated by OH and H. The pronounced photoluminescence of siloxene is mainly related to the Si6-rings. Porous Si shows similar luminescence and almost identical vibrational properties as siloxene, which makes this class of materials a possible candidate for the origin of the luminescence in p-Si. Annealing at temperatures below 300 °C and moderate illumination of siloxene induces the transformation from the Si-plane-like structure to the Si-ring-like structure. Anneal temperatures above 300 °C and intense illumination of both siloxene and p-Si leads to an effusion of hydrogen and an irreversible oxidation of the samples.

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Visible luminescence from porous silicon and siloxene

Abstract

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