Ibrahim Burc Misirlioglu
Sabancı University
62 Papers
396 Citations
Ibrahim Burc Misirlioglu is an academic researcher from Sabancı University. The author has contributed to research in topics: Ferroelectricity & Dielectric. The author has an hindex of 20, co-authored 58 publications. Previous affiliations of Ibrahim Burc Misirlioglu include University of Connecticut.
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Papers
Asymmetric hysteresis loops and smearing of the dielectric anomaly at the transition temperature due to space charges in ferroelectric thin films
TL;DR: In this article, the effect of a spatial, continuous distribution of space charge on the hysteresis response and phase transition characteristics of epitaxial (001) PbZr03Ti07O3 thin films sandwiched between metallic electrodes on (1) SrTiO3 substrate using a nonlinear thermodynamic model was analyzed.
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Thickness-driven antiferroelectric-to-ferroelectric phase transition of thin PbZrO3 layers in epitaxial PbZrO3∕Pb(Zr0.8Ti0.2)O3 multilayers
Ksenia Boldyreva,Lucian Pintilie,Andriy Lotnyk,Ibrahim Burc Misirlioglu,Marin Alexe,Dietrich Hesse +5 more
TL;DR: In this article, an antiferroelectric/ferroelectric PbZrO3 multilayers were grown on SrRuO3-electroded SrTiO3(100) substrates by pulsed laser deposition.
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Space charge contribution to the apparent enhancement of polarization in ferroelectric bilayers and multilayers
TL;DR: In this article, the effect of interfacial space charge in ferroelectric multilayers through a thermodynamic formalism was studied, showing that considerable modification in electrical properties can be exhibited, giving rise to polarization enhancement depending on the type of dopants and configuration of the layers.
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Contribution of space charges to the polarization of ferroelectric superlattices and its effect on dielectric properties
TL;DR: In this article, a theoretical model for ferroelectric bilayers and multilayer heterostructures was developed for a nonlinear Landau-Devonshire formalism coupled with a detailed analysis of the depolarizing fields arising from the polarization mismatch across interlayer interfaces and the electrical fields of localized space charges.
Stress Induced Monoclinic Phase in Epitaxial BaTiO3 on MgO
TL;DR: In this paper, a detailed strain analysis of epitaxial ferroelectric films taking into account multiple sources of strain, including the lattice mismatch between the film and the substrate, thermal strains due to differences in the thermal expansion coefficients of the substrate and the film, and relaxation by the formation of interfacial dislocations is presented.
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