Precursor dissolution temperature as a size-controller in Fe3O4 submicrospheres syntheses and their effect in the catalytic degradation of Rhodamine B

Beatriz da Costa Carvalho; Fabiana Cristina Andrade Corbi; Fernando Aparecido Sigoli; Italo Odone Mazali

doi:10.1039/C6RA03456J

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Precursor dissolution temperature as a size-controller in Fe₃O₄ submicrospheres syntheses and their effect in the catalytic degradation of Rhodamine B†

Beatriz da Costa Carvalho,^a Fabiana Cristina Andrade Corbi,^a Fernando Aparecido Sigoli^a and Italo Odone Mazali*^a

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* Corresponding authors

^a Functional Materials Laboratory, Institute of Chemistry, University of Campinas, UNICAMP, P.O. Box 6154, 13083-970 – Campinas, SP, Brazil
E-mail: mazali@iqm.unicamp.br
Fax: +55 19 35213023
Tel: +55 19 35213164

Abstract

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 Fe₃O₄ submicrospheres show high saturation magnetization (M_s) and low hysteresis (low remnant magnetization, M_r and coercivity, H_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.

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Article information

DOI: https://doi.org/10.1039/C6RA03456J
Article type: Paper
Submitted: 05 Feb 2016
Accepted: 12 Apr 2016
First published: 13 Apr 2016

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RSC Adv., 2016,6, 38617-38623

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Precursor dissolution temperature as a size-controller in Fe₃O₄ submicrospheres syntheses and their effect in the catalytic degradation of Rhodamine B

B. da Costa Carvalho, F. C. Andrade Corbi, F. A. Sigoli and I. O. Mazali, RSC Adv., 2016, 6, 38617 DOI: 10.1039/C6RA03456J

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