Impact of site modificationon on the functional properties of PbTiO3: 3: A review

The coexistence and coupling of ferroelectricity and magnetism are the main topics of contemporary research due to the multiple substantial ferroic orders, or multiferroics. Efforts have been undertaken to investigate the structural or electronic driving force that enables the coexistence of ferroelectric and magnetic order characteristics. Despite their environmental constraints, Pb-based compounds, particularly PbTiO3 3 derivatives, have been extensively studied up to this point due to their exceptional dielectric, piezoelectric, and pyroelectric properties as well as their innovative uses. With increased interest in fabricating multiferroic PbTiO3 3 based materials in the forms ferroelectric and ferromagnetic layer superlattices, composites of ferroelectric and ferromagnetic heterostructures, and doping of suitable magnetic transition metals, the review focuses on the suitable doping mechanisms at different sites of PbTiO3 3 in order to attain, optimize, and improve the material's electric and magnetic properties respectively.