Header menu link for other important links
X
Magnetic, magnetoelectric, magnetodielectric and magnetoresistance studies on CuO doped Sr2Bi4Ti5O18 lead free ferroelectric ceramics
Elayaperumal, E., Elayaperumal E, ,
Published in Elsevier BV
2015
Volume: 650
   
Pages: 758 - 767
Abstract
As an effort to develop new multiferroic materials at room temperature, we have interstitially doped (x mol %) low dimensional CuO with strong superexchange interactions into lead-free ferroelectric Sr2Bi4Ti5O18 (SBT) ceramics. Upon increase of CuO doping concentration (x = 0, 0.25, 0.5, 0.75 & 1) in SBT + x mol % compound a small and noticeable, but not appreciable, SrTiO3 secondary phase segregates in the SBT. Thus, CuO doping induces SrTiO3 phase and induced volume increase with "x". The undoped SBT shows weak magnetization (μemu/g) at room temperature and magnetization enhances three-fold (memu/g) with CuO doping in SBT. The thermomagnetic studies of all the samples under zero field cooled, and field cooled modes show typical paramagnetic nature below room temperature and no spin glass-like phases. The Curie-Weiss law analysis suggest that antiferromagnetic interactions are predominant at low temperature in all the CuO doped samples except x = 0.75, which show ferromagnetic interactions. In the direct test for magnetoelectric properties, all the samples show similar magnetoelectric coupling coefficient (α). Among all, the x = 1 sample shows relatively low "α" indicating the magnetoelectric coupling weakens at high CuO concentration. Further, in an indirect test (magnetocapacitance) for magnetoelectric coupling shows similar to magnetoelectric behavior. As reported, the magnetocapacitance may originate from magnetoresistance (MR) and Maxwell-Wagner polarization effect. Our low field MR study on all samples suggests that large magnetocapacitance in x = 1 sample is not due to the extrinsic phenomenon. However further studies are essential to confirm our present inference. © 2015 Elsevier B.V.
About the journal
JournalData powered by TypesetJournal of Alloys and Compounds
PublisherData powered by TypesetElsevier BV
ISSN0925-8388
Open Access0