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Manganite perovskite nanoparticles for self-controlled magnetic fluidhyperthermia: about the suitability of an aqueous combustion synthesis route
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SYSNO ASEP 0367156 Document Type J - Journal Article R&D Document Type Journal Article Subsidiary J Článek ve WOS Title Manganite perovskite nanoparticles for self-controlled magnetic fluidhyperthermia: about the suitability of an aqueous combustion synthesis route Author(s) Epherre, R. (FR)
Duguet, E. (FR)
Mornet, S. (FR)
Pollert, Emil (FZU-D)
Louguet, S. (FR)
Lecommandoux, S. (FR)
Schatz, Ch. (FR)
Goglio, G. (FR)Source Title Journal of Materials Chemistry. - : ROYAL SOC CHEMISTRY - ISSN 0959-9428
Roč. 21, č. 12 (2011), s. 4393-4401Number of pages 9 s. Language eng - English Country GB - United Kingdom Keywords manganese perovskite nanoparticles ; aqueouc combustion synthesis Subject RIV BM - Solid Matter Physics ; Magnetism CEZ AV0Z10100521 - FZU-D (2005-2011) UT WOS 000288220600057 DOI 10.1039/C0JM03963B Annotation Unaggregated La0.82Sr0.18MnO3 + δ perovskite nanoparticles with a mean crystallite size of 22 nm were successfully synthesized through an aqueous combustion process (Glycine Nitrate Process, GNP)which takes advantage of exothermic, fast and self-sustaining chemical reactions between metal nitrates and glycine as a suitable organic reducing agent. The influence of G/N molar ratio on the phase purity,crystallite size and manganese valency was screened. Fuel-rich conditions were selected to improve chelation of the cations in acidic pH and ensure an accurate control of the cationic composition. Fast calcination was optimized to enhance crystallinity of the nanoparticles and subsequent milling step was performed to favour their desaggregation. The manganite nanoparticles were thoroughly characterized by X-ray diffraction (XRD), elemental chemical analysis, Mohr salt titration and transmission electron microscopy(TEM. Workplace Institute of Physics Contact Kristina Potocká, potocka@fzu.cz, Tel.: 220 318 579 Year of Publishing 2012
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