Ion dopants tuning the interband electronic structure for huge saturated ferroelectric polarization in bismuth ferrite films

Bismuth ferrite (BiFeO₃, BFO) as a prototype multiferroic has been extensively studied in past years; however, there are several key issues not to be clearly expressed. Especially, the relationship of structure and physical properties still remains obscure. In this case, the interband electronic structure of BFO was elaborately manipulated by appropriation dopants of Ni and Gd to realize the huge saturated ferroelectric polarization in the polycrystalline films. For instance, a huge saturated polarization P_S of 96?μC/cm² and remnant polarization Pr of 91?μC/cm² were achieved in Bi_0.925Gd_0.075Fe_0.95Ni_0.05O₃ film. The results and analysis show that the alteration in the interband electronic structure and the improvement of morphology derived from the ion doping effect indeed play key roles on the improved ferroelectric property of the doped BFO films. The decreased leakage current density and thereby the enhanced ferroelectric polarization in the doped BFO films should be attributed to the decrease in both Fermi level and Urbach energy closely related with the defects, as well as the improved surface uniformity and compactness of the films. Finally, the mechanism and relationship of structure and physical properties in BFO were systemically analyzed and discussed.

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The ferroelectric polarization for pure and doped BiFeO₃ films