Nanoscopic Cobalt Ferrite by Sonolysis of M(acac)3 Complexes

OSTŘÍŽEK, Petr, Jiří PINKAS, Radek ZBOŘIL, Zdeněk MORAVEC and Petr BEZDIČKA. Nanoscopic Cobalt Ferrite by Sonolysis of M(acac)3 Complexes. In 11 th Meeting of the European Society of Sonochemistry. 1st ed. Basancon, Francie: UTINAM Universite de Franche-Comte, 2008, p. 181-182. ISSN 1350-4177.

Basic information

• Original name: Nanoscopic Cobalt Ferrite by Sonolysis of M(acac)3 Complexes
• Name in Czech: Příprava nanoskopického kobaltnatého ferritu sonolýzou komplexů M(acac)3
• Authors: OSTŘÍŽEK, Petr (203 Czech Republic), Jiří PINKAS (203 Czech Republic, guarantor), Radek ZBOŘIL (203 Czech Republic), Zdeněk MORAVEC (203 Czech Republic) and Petr BEZDIČKA (203 Czech Republic).
• Edition: 1. vyd. Basancon, Francie, 11 th Meeting of the European Society of Sonochemistry, p. 181-182, 2 pp. 2008.
• Publisher: UTINAM Universite de Franche-Comte

Other information

• Original language: English
• Type of outcome: Proceedings paper
• Field of Study: 10402 Inorganic and nuclear chemistry
• Country of publisher: France
• Confidentiality degree: is not subject to a state or trade secret
• Impact factor: Impact factor: 2.796
• RIV identification code: RIV/00216224:14310/08:00026052
• Organization unit: Faculty of Science
• ISSN: 1350-4177
• Keywords in English: Sonochemistry; Iron; Cobalt; Oxides; Ferrite; Nanoparticles
• Tags: cobalt, Ferrite, Iron, nanoparticles, Oxides, Sonochemistry
• Tags: International impact, Reviewed

Abstract

We examined the sonochemical synthesis of CoFe2O4. Composite nanoscopic particles consisting of Co-Fe oxide particles and an organic matrix were prepared by sonolysis of mixtures of 2,4-pentanedionato complexes, M(acac)n, M = Fe, Co; n = 2, 3. The XRD results showed that phase pure CoFe2O4 samples were prepared with a molar content of Co:Fe from 1:1.3 to 1:2.0. Addition of variable amounts of water was found to facilitate the decomposition of precursor complexes. That allowed control of the organics content and the BET surface area of the oxide nanoparticles. Powders with specific surface area as high as 218 m2 g-1 were obtained. FE-SEM was used to examine particle shape, size, and size distribution with an estimated diameter of 20-30 nm. Variable temperature XRD also revealed the spinel crystallization on heating. A small particle size below 20 nm of the crystalline CoFe2O4 is retained up to 600 oC.

Abstract (in Czech)

Studium přípravy nanoskopického kobaltnatého ferritu CoFe2O4 sonolýzou komplexů M(acac)n, M = Fe, Co; n = 2, 3.

Links

• MSM0021622410, plan (intention): Name: Fyzikální a chemické vlastnosti pokročilých materiálů a struktur

Investor: Ministry of Education, Youth and Sports of the CR, Physical and chemical properties of advanced materials and structures