Precursor dissolution temperature as a size-controller in Fe sub(3)O sub(4) submicrospheres syntheses and their effect in the catalytic degradation of Rhodamine B

Iron oxides submicrospheres have been synthesized by a solvothermal method. The particle sizes decrease from 700 to 100 nm as a function of dissolution temperature of iron salt precursors, when keeping the reaction temperature in the autoclave constant. The submicrosphere particles are formed by agg...

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Veröffentlicht in:	RSC advances 2016-04, Vol.6 (45), p.38617-38623
Hauptverfasser:	da Costa Carvalho, Beatriz, Andrade Corbi, Fabiana Cristina, Sigoli, Fernando Aparecido, Mazali, Italo Odone
Format:	Artikel
Sprache:	eng
Schlagworte:	Catalysis Catalysts Degradation Dissolution Iron oxides Nanostructure Precursors Rhodamine
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description	Iron oxides submicrospheres have been synthesized by a solvothermal method. The particle sizes decrease from 700 to 100 nm as a function of dissolution temperature of iron salt precursors, when keeping the reaction temperature in the autoclave constant. The submicrosphere particles are formed by aggregation of smaller nanoparticles, nanograins. The Fe sub(3)O sub(4) submicrospheres show high saturation magnetization (M sub(s)) and low hysteresis (low remnant magnetization, M sub(r) and coercivity, H sub(c)), showing superparamagnetic behavior. The size tailoring of the iron oxide particles allowed their application as catalysts on the photo-Fenton reaction of Rhodamine B degradation, in which smaller particles showed high catalytic activity and the degradation efficiency showed strong dependence on the nanograin size.
doi_str_mv	10.1039/c6ra03456j
format	Article
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source	Royal Society Of Chemistry Journals 2008-
subjects	Catalysis Catalysts Degradation Dissolution Iron oxides Nanostructure Precursors Rhodamine
title	Precursor dissolution temperature as a size-controller in Fe sub(3)O sub(4) submicrospheres syntheses and their effect in the catalytic degradation of Rhodamine B
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