Mechanisms for point defect-induced functionality in complex perovskite oxides

Abstract: Perovskite oxides are an extremely versatile class of materials in which functionality can, besides other routes, also be engineered via the deliberate introduction of defects. In this focused review, we will specifically look at mechanistic details of ferroelectric and magnetic functionality introduced, altered, or reinforced by point defects. An ever-growing number of related studies start to provide a basis for the mechanistic understanding of different engineering routes to be exploited in future studies. … Show more

“…These magnetic properties may include antiferromagnetic, ferromagnetic, or ferrimagnetic. 5,6 The presence of both magnetic and ferroelectric phenomena in these materials is called multiferroicity, making them particularly attractive for magnetoelectric applications.…”

Structural and dielectric characterization of synthesized nano-BSTO/PVDF composites for smart sensor applications

“…These magnetic properties may include antiferromagnetic, ferromagnetic, or ferrimagnetic. 5,6 The presence of both magnetic and ferroelectric phenomena in these materials is called multiferroicity, making them particularly attractive for magnetoelectric applications.…”

Structural and dielectric characterization of synthesized nano-BSTO/PVDF composites for smart sensor applications

Positron annihilation spectroscopic studies of ferromagnetic methylammonium lead iodide perovskite

Enhancing piezoelectricity of low-temperature-sintered PZT–BNZ ceramics by pulse poling