Issue 109, 2014
From the journal:

RSC Advances

Sol–gel auto-combustion synthesis of PbFe12O19 using maltose as a novel reductant

Fatemeh Ansari,a   Azam Sobhanib  and  Masoud Salavati-Niasari*a  

* Corresponding authors

a Institute of Nano Science and Nano Technology, University of Kashan, P. O. Box. 87317-51167, Kashan, I. R. Iran
E-mail: salavati@kashanu.ac.ir
Fax: +98 361 5552935
Tel: +98 361 5912383

b Department of Chemistry, Kosar University of Bojnord, Bojnord, Islamic Republic of Iran

Abstract

A new way of preparing lead hexaferrite (PbFe12O19) nanoplates and nanoparticles has been developed using the sol–gel auto-combustion route, without adding external surfactant. For the first time, maltose has been applied as reductant to form PbFe12O19. In this work, we have chosen lead nitrate and iron nitrate as starting reagents. The morphology, phase structure, composition and phase purity of PbFe12O19 can be controlled by adjusting the Pb/Fe and Pb : reductant ratios and also calcination temperature. When the molar ratio of Pb/Fe is 1 : 6 and calcination temperature is 900 °C, the product is pure and found to be PbFe12O19 nanoplates. The size and agglomeration of the nanoplates increase with decreasing maltose content. On decreasing the calcination temperature to 600 °C, nanoparticles with spherical morphology are obtained. The PbFe12O19 nanostructures are characterized using SEM, TEM, EDS and XRD. Products with a high coercive force of 5609 Oe are obtained when the Pb/maltose and Pb/Fe ratios are 1 : 26 and 1 : 6, respectively, and calcination temperature is 900 °C.

Graphical abstract: Sol–gel auto-combustion synthesis of PbFe12O19 using maltose as a novel reductant

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Article information

DOI
https://doi.org/10.1039/C4RA11688G
Article type
Paper
Submitted
02 Oct 2014
Accepted
19 Nov 2014
First published
19 Nov 2014

RSC Adv., 2014,4, 63946-63950

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Sol–gel auto-combustion synthesis of PbFe12O19 using maltose as a novel reductant

F. Ansari, A. Sobhani and M. Salavati-Niasari, RSC Adv., 2014, 4, 63946 DOI: 10.1039/C4RA11688G

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