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Phase relation and oxygen-non-stoichiometry of Perovskite-like Compound SrCoOx (2.29 〈 x 〉 2.80)Dedicated to Professor Paul HagenmullEr on his 65th Birthday (1986)

Takeda, Y. ; Kanno, R. ; Takada, T. ; [et al.]

Weinheim : Wiley-Blackwell

Zeitschrift für anorganische Chemie 540 (1986), S. 259-270

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ISSN: 0044-2313

Keywords: Chemistry ; Inorganic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Description / Table of Contents: Phasenbeziehungen und Sauerstoff-Nichtstöchiometrie der perowskitartigen Verbindung SrCoOx (2,29 〈 x 〈 2,80)Strontiumcobaltate der Zusammensetzung SrCoO2,29 bis SrCoO2,80 sind unter verschiedenen Bedingungen, in bezug auf Den Sauerstoffdruck und Temperatur, dargestellt worden. Die bei höheren Temperaturen (über 800°C) dargestellten Proben kristallisierten, abhängig vom Sauerstoffdefizit, im Brownmillerit- oder Perowskit-Typ. Eine Perowskit-Phase mit großem Sauerstoff-Defizit, SrCoO2,29, und eine Brownmillierit-feste-Lösung, SrCoOx (2,42 〈 x 〈 2,52) wurden beobachtet. Andererseits kristallisierten bei niedriger Temperatur (unter 800°C) geglühte Proben nicht in der 2H-Typ Struktur mit dem Sr:Co-Verhältnis von 1:1 sondern in der Cobaltdefizit-Phase, 2H-SrCo1-uOx (u ≍ 0,1) und Co3O4. Der sauerstoffreiche Perowskit SrCoO2,67-2,80 wurde durch Glühen der Brownmillerit-Phase unter hohem Sauerstoffdruck bei 300°C Erhalten. Die elektrische Leitfähigkeit von SrCoOx (2,29 〈 x 〈 2,80) und der Sauerstoff-Diffusionskoeffizient der Perowskit-Phase SrCoOx (x = 2,68, 2,75 und 2,80) wurden als Funktion Der Temperatur gemessen. SrCoO2,80 zeigte Den sehr hohen Diffusionskoeffizienten von 2,3 · 10-11 cm2 sec-1 bei 23°C.

Notes: Strontium cobaltates in the composition range, SrCoO2.29-SrCoO2.80, have been prepared under various conditions with respect to the oxygen pressure and temperature. Samples prepared at high temperatures (above 800°C) crystallized in the brownmillerite or perovskite type Structure Depending on oxygen Deficiency. A perovskite phase having large oxygen Deficiency, SrCoO2.29, and a brownmillerite solid solution, SrCoOx (2.42 〈 x 〈 2.52), were observed. On the other hand, samples annealed at low temperatures (below 800°C) did not crystallize in 2H type Structure with Sr:Co ratio of 1:1 but in the cobalt Deficient phase, 2H-SrCo1-uOx (u ≍ 0.1) and Co3O4. The high oxygen content perovskite SrCoO2.67-2.80 was obtained by annealing the brown-millerite phase under high oxygen pressures at 300°C. The electrical conductivity of SrCoOx (2.29 〈 x 〈 2.80) and the oxygen diffusion coefficient of the perovskite phase SrCoOx (x = 2.68, 2.75 and 2.80) were measured as a function of temperature. SrCoO2.80 showed the very high diffusion coefficient of 2.3 × 10-11 cm2 sec-1 at 23°C.

Additional Material: 5 Ill.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1002/zaac.19865400929

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Selective growth of fully relaxed GeSn nano-islands by nanoheteroepitaxy on patterned Si(001) (2016)

V. Schlykow, W. M. Klesse, G. Niu, N. Taoka, Y. Yamamoto, O. Skibitzki, M. R. Barget, P. Zaumseil, H. von Känel, M. A. Schubert, G. Capellini and T. Schroeder

American Institute of Physics (AIP)

In: Applied Physics Letters

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Publication Date: 2016-11-15

Description: In this letter, we explore in detail the potential of nanoheteroepitaxy to controllably fabricate high quality GeSn nano-structures and to further improve the crystallinity of GeSn alloys directly grown on Si(001). The GeSn was grown by molecular beam epitaxy at relatively high temperatures up to 750 °C on pre-patterned Si nano-pillars embedded in a SiO 2 matrix. The best compromise between selective GeSn growth and homogenous Sn incorporation of 1.4% was achieved at a growth temperature of 600 °C. X-ray diffraction measurements confirmed that our growth approach results in both fully relaxed GeSn nano-islands and negligible Si interdiffusion into the core of the nanostructures. Detailed transmission electron microscopy characterizations show that only the small GeSn/Si interface area reveals defects, such as stacking faults. Importantly, the main part of the GeSn islands is defect-free and of high crystalline quality. The latter was further demonstrated by photoluminescence measurements where a clear redshift of the direct Γ C -Γ V transition was observed with increasing Sn content.

Print ISSN: 0003-6951

Electronic ISSN: 1077-3118

Topics: Physics

Published by American Institute of Physics (AIP)

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