Low temperature chemical vapor deposition of Si-based compounds via SiH3SiH2SiH3: Metastable SiSn∕GeSn∕Si(100) heteroepitaxial structures

Low temperature chemical vapor deposition of Si-based compounds via SiH3SiH2SiH3: Metastable SiSn∕GeSn∕Si(100) heteroepitaxial structures

Growth of Si1−xSnx alloys on Ge1−ySny-buffered Si(100) was achieved via reactions of SnD4 and SiH3SiH2SiH3 at 275°C. Kinetic studies indicate that unprecedented low growth temperatures are made possible by the highly reactive SiH2 groups. The authors obtain supersaturated metastable compositions (y∼...

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Veröffentlicht in:Applied physics letters 2006-12, Vol.89 (23)
Hauptverfasser: Tolle, J., Chizmeshya, A. V. G., Fang, Y.-Y., Kouvetakis, J., D’Costa, V. R., Hu, C.-W., Menéndez, J., Tsong, I. S. T.
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Sprache:eng
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Zusammenfassung:Growth of Si1−xSnx alloys on Ge1−ySny-buffered Si(100) was achieved via reactions of SnD4 and SiH3SiH2SiH3 at 275°C. Kinetic studies indicate that unprecedented low growth temperatures are made possible by the highly reactive SiH2 groups. The authors obtain supersaturated metastable compositions (y∼25%) near the indirect to direct band gap crossover predicted by first principles simulations. Extensive characterizations of composition, structure, and morphology show that the SiSn∕GeSn films grow lattice matched via a “compositional pinning” mechanism. The initial Raman observations of Si–Sn bond vibrations in a condensed phase are discussed in the context of simulated bond distributions in the alloys.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.2403903