Abstract
Rare-earth (RE = La, Nd, Sm)-substitution into BiT (Bi4-XREXTi3O12) was conducted in a composition range of 0 ≤X ≤3.0. BiT powders, into which fixed amounts of RE cations were incorporated, were directly synthesized by low-temperature calcination of coprecipitated precursors. Complete substitution with RE was achieved for samples up to X = 2.5 at 1100 °C. Dielectric permittivity (εr)–temperature curves of the La-2.0, Nd-2.0, and Sm-2.0 ceramics showed εr maxima in a frequency-dependent manner. The εr maxima were located at around 540–560 °C (at 1 kHz), which corresponded to the transition from the ferroelectric to paraelectric phase. Increasing Nd-substitution from X = 2.0 to 2.5 resulted in a much suppressed εr maximum at 200–300 °C, which may be due to substantial reduction in the structural distortion giving rise to ferroelectricity of the BiT-based phase. The appearance and enhancement of magnetization was found for the Nd- and Sm-substituted BiT samples. They revealed specified magnetization–magnetic field curves with a small hysteresis loop, suggesting the presence of a weak canted antiferromagnetic interaction.
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