@conference{
author = "Bobić, Jelena and Ilić, Nikola and Kaliyaperumal Veerapandiyan, Vignaswaran and Vijatović Petrović, Mirjana and Džunuzović, Adis and Vukmirovic, Jelena and Deluca, Marco",
year = "2020",
abstract = "The search for multiferroic materials combining electric and magnetic properties in a single phase has attracted
a lot of attention in the perspective of future magnetoelectronic devices. A handful of single phase multiferroics
have been discovered so far, and most of them are not suitable for practical applications at present, either
because the room temperature polarization/magnetization is too small or their mutual coupling is too weak.
One of the most important single-phase multiferroic material with Aurivillius structure is Bi5Ti3FeO15 (BFT)
which generally yields a magnetoelectric coupling above room temperature. The main lack of this material is
high electrical conductivity and hence the lower ferro-electromagnetic properties. Since BFT has the capability
to host ions of different size, multiferroic properties could be improved by using dopants or ionic substitutions
on different A and B-sites of the structure.
To this respect, Co2+ and Y3+ doped BFT were prepared by the solid state reaction method according to formulas:
Bi1-xYxTi3FeO15 (x=0.1, 0.2, 0.3) and BiTi3Fe1-yCoyO15(y=0.1, 0.3, 0.5). Slightly improve of ferroelectric properties
was noticed with 0.3 mol% of Co while replacement of Bi3+ with Y3+ causes a reduction in orbital hybridization
between Bi 6sand O 2s/2porbitals leading to a decrease in electric polarization as a vector sum of all dipole
moments. Magnetic measurements confirm the antiferromagnetic nature of pure and Y doped ceramics while
Co-doped samples exhibit a typical ferromagnetic loop reveals the existence of FM interactions in these samples.
The largest Mr value appears in samples doped with 3 mol% of Co (Mr of 0.084 emu/g and Hc of 287 Oe). Raman
spectroscopy confirmed that Y prefer to replace Bi ions in the pseudo-perovkite layers while Co ions enter into
the lattice and occupy the Fe site inside of oxygen octahedral.",
publisher = "Electroceramics XVII 2020, Darmstadt, 24-28 August 2020, Online Conference",
journal = "Electroceramics XVII, 2020, Darmstadt, 24-28 August 2020, Online Conference",
title = "Improving of ferroelectric and magnetic properties of Bi5Ti3FeO15 multiferroic materials with Y3+ and Co2+ partial substitution",
url = "https://hdl.handle.net/21.15107/rcub_rimsi_2513"
}