Effect of doping on the morphology and multiferroic properties of BiFeO3 nanorods

Dimple P. Dutta; O. D. Jayakumar; A. K. Tyagi; K. G. Girija; C. G. S. Pillai; G. Sharma

doi:10.1039/C0NR00100G

Effect of doping on the morphology and multiferroic properties of BiFeO₃nanorods

Dimple P. Dutta,*^a O. D. Jayakumar,^a A. K. Tyagi,*^a K. G. Girija,^a C. G. S. Pillai^a and G. Sharma^b

* Corresponding authors

^a Chemistry Division, Bhabha Atomic Research Centre, Mumbai, India
E-mail: dimpled@barc.gov.in, aktyagi@barc.gov.in

^b Mechanical Metallurgy Section, Bhabha Atomic Research Centre, Mumbai, India

Abstract

In this study we report the synthesis of BiFeO₃ nanorods using a sonochemical technique. The nanorods had a diameter of 20–50 nm, a length of 100–500 nm and exhibit aspect ratios in the range of 5–10. However, after doping, the TEM images of Bi_0.9Ba_0.1Fe_0.9Mn_0.1O₃ and Bi_0.9Ca_0.1Fe_0.9Cr_0.1O₃ samples show that the aspect ratios of both the double doped samples have reduced considerably, while retaining the crystallinity of the particles. BiFeO₃ nanorods show a weak ferromagnetic order at room temperature, which is quite different from the linear M–H relationship reported for bulk BiFeO₃. The saturation magnetization of these BiFeO₃ nanostructures has been found to increase on doping with various metal ions (Ba²⁺, Ca²⁺, Mn²⁺, Cr³⁺), reaching a maximum value of 1.35 emu g⁻¹ for the Bi_0.9Ba_0.1Fe_0.9Mn_0.1O₃ nanostructures. However, saturation of electric polarization was observed only in case of the Bi_0.9Ca_0.1Fe_0.9Cr_0.1O₃ nanostructures.

This article is part of the themed collection: Doped nanostructures

Article information

https://doi.org/10.1039/C0NR00100G

Article type

Paper

Submitted

09 Feb 2010

Accepted

31 Mar 2010

First published

25 May 2010

Download Citation

Nanoscale, 2010,2, 1149-1154

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Effect of doping on the morphology and multiferroic properties of BiFeO₃ nanorods

D. P. Dutta, O. D. Jayakumar, A. K. Tyagi, K. G. Girija, C. G. S. Pillai and G. Sharma, Nanoscale, 2010, 2, 1149 DOI: 10.1039/C0NR00100G

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