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Size and Shape Control of SrTiO3 Particles Grown by Epitaxial Self-Assembly (Articolo in rivista)

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Size and Shape Control of SrTiO3 Particles Grown by Epitaxial Self-Assembly (Articolo in rivista) (literal)

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Alternative label

Vincenzo R. Calderone; Andrea Testino; Maria Teresa Buscaglia; Marta Bassoli; Carlo Bottino; Massimo Viviani; Vincenzo Buscaglia; Paolo Nanni (2006)
Size and Shape Control of SrTiO3 Particles Grown by Epitaxial Self-Assembly
in Chemistry of materials (Online); ACS, American chemical society, Washington, DC (Stati Uniti d'America)
(literal)

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Vincenzo R. Calderone; Andrea Testino; Maria Teresa Buscaglia; Marta Bassoli; Carlo Bottino; Massimo Viviani; Vincenzo Buscaglia; Paolo Nanni (literal)

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http://puma.isti.cnr.it/linkres.php?resource=cnr.ieni/cnr.ieni.ge/2006-A0-003 (literal)

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Rivista

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In: Chemistry of Materials, vol. 18 (6) pp. 1627-1633. American Chemical Society, 2006. (literal)

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Department of Process and Chemical Engineering, University of Genoa, I-16129 Genoa, Italy; Institute for Energetics and Interphases, Department of Genoa, National Research Council, I-16149 Genoa, Italy (literal)

Titolo

Size and Shape Control of SrTiO3 Particles Grown by Epitaxial Self-Assembly (literal)

Abstract

Cubic SrTiO3 particles are obtained by precipitation from an aqueous gel suspension. The gel suspension is prepared by hydrolyzing a TiOCl2 solution with NaOH and adding SrCl2. The addition of citric acid leads to spherical particles. The particle size can be tailored in the range 80-1400 nm by varying the temperature and the concentration. A careful control of the synthesis conditions is essential for producing particles with a narrow size distribution. The results of HRTEM and ED investigations provide strong evidence that the oriented aggregation of small (4-5 nm) nanocrystals is the dominant growth mechanism for the formation of the observed SrTiO3 particles. The primary nanocrystals self-assemble in a highly oriented fashion, producing defective single-crystal particles. The above results show that the directional aggregation process can be controlled by changing the temperature and concentration of the suspension as well as by adding organic molecules, obtaining SrTiO3 particles with a controlled size and shape. (literal)

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