Abstract
Ferroelectric materials are typically insulators, but recent studies have shown that ferroelectric materials can be modified by design for the coexistence of metallicity and ferroelectricity. Here, by using first-principles calculations, we investigated ferroelectric, electronic, and magnetic properties of different metal atoms M doped BaTiO3 (BTO) (M=Al, V, Cr, Fe, Ni, and Nb) system with a doping concentration of 0.125. Our results indicate that electrons in Cr-, Fe-, Ni-, and V-doped BTO systems are highly localized in the doping atom and its nearby O atoms. Simultaneously, their ferroelectricity has not decreased much. However, ferroelectricity and metallicity can perfectly coexist in each unit cell of an Al-doped BTO system owing to its p-type conductivity that is nonmagnetic, which is predominantly contributed by px/py orbitals. Moreover, the ferroelectricity of an Al-doped BTO system is uncommonly enhanced. Besides, for a Nb-doped BTO system, the ferromagnetic n-type conductivity exists in each unit cell, and its ferroelectricity is reduced because of the existence of dxz/dyz orbital electrons that eliminate the out-of-plane electrical dipoles. Our results provide a new avenue to tune ferroelectric and ferromagnetic properties in multiferroic perovskites.
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