Abstract
Enhanced ferroelectricity and magnetization have been observed in Ti-doped BiFeO3 nanoceramics prepared using spark plasma sintering processes. X-ray diffraction and FESEM investigations suggested the formation of a pure rhombohedral phase BiFe0.95Ti0.05O3 (BFTO) ceramics with an average grain size less than 100nm. Low dielectric loss and conductivity were attributed to low concentration of Fe2+ (Fe3+/Fe2+ is 2.8) measured by X-ray photoelectron spectroscopy. The remanent polarization test identified the intrinsic ferroelectricity in BFTO nanoceramics. The piezo-response force microscopy measurements showed nano-scaled ferroelectric domains in BFTO nanoceramics. High remanent magnetization (Mr = 0.1emu/g) was attributed to the collapse of the cycloidal spin structure for the substitution of Fe3+ with Ti4+ and the existence of nanoscaled grains less than the period (62nm) of the spin cycloid.
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