Artificial multiferroic structures based on barium-strontium titanate

“…However constraint considerations associated with the simultaneous presence of magnetism and ferroelectricity typically lead to low critical temperatures in those single-phase structures, making their multiferroic response unpractical. Such limitations have redirected efforts to a more realistic approach, which is the fabrication of heterogeneous composite systems [7][8][9][10][11]. In the composite arrangement the different order parameters need not to coexist in the same phase, while the symmetry rupture ensued from the different symmetries of the heterostructure would originate an extrinsic coupling at the interface; particularly, nanostructured composites with large surface area such as concentric core-shell particulates or multilayer film arrays can result especially effective [12][13][14][15].…”

Solid state diffusion and reactivity in the multiferroic BiFeO3–Bi4Ti3O12 composite system

“…However constraint considerations associated with the simultaneous presence of magnetism and ferroelectricity typically lead to low critical temperatures in those single-phase structures, making their multiferroic response unpractical. Such limitations have redirected efforts to a more realistic approach, which is the fabrication of heterogeneous composite systems [7][8][9][10][11]. In the composite arrangement the different order parameters need not to coexist in the same phase, while the symmetry rupture ensued from the different symmetries of the heterostructure would originate an extrinsic coupling at the interface; particularly, nanostructured composites with large surface area such as concentric core-shell particulates or multilayer film arrays can result especially effective [12][13][14][15].…”

Solid state diffusion and reactivity in the multiferroic BiFeO3–Bi4Ti3O12 composite system

“…Thus, researchers adopted heteroatoms doping in pristine BTP to attain demandable properties. 16,17 As a consequence, after doping, electrical resistance dramatically reduced, 18 enhanced piezoelectric properties, 19 improved ferroelectric properties, 19,20 increased dielectric permeability, 21 and non-magnetic BTP could develop magnetic moment. 20,22 Besides, after doping, BTP can withstand a very high electric field 20 and increase thermal stability.…”

“…20,22 Besides, after doping, BTP can withstand a very high electric field 20 and increase thermal stability. 18 Moreover, as BTP exhibits phase transition at low temperatures in the phase diagram, 23 therefore, BTP-doped with suitable materials provides an appealing research platform for exploring mechanisms of improved characteristics. Furthermore, because their functional characteristics are sensitive to both microstructure and chemical changes, 22 BTP-materials are highly favorable for basic research.…”

Tailoring the Properties of Bulk BaTiO₃Based Perovskites by Heteroatom-Doping towards Multifunctional Applications: A Review

High dielectric acrylonitrile-butadiene rubber with excellent mechanical properties by filling with surface-modified barium/strontium inorganic functional powders