In transition metal oxides, quantum confinement arising from a large surface to volume ratio often gives rise to novel physico-chemical properties at nanoscale. Their size dependent properties have potential applications in diverse areas, including therapeutics, imaging, electronic devices, communication systems, sensors, and catalysis. We have analyzed structural, magnetic, dielectric, and thermal properties of weakly ferromagnetic SmFeO 3 nanoparticles of sizes about 55 nm and 500 nm.The nano-size particles exhibit several distinct features that are neither observed in their larger-size variants nor reported previously for the single crystals. In particular, for the 55 nm particle, we observe six-fold enhancement of compensation temperature, an unusual rise in susceptibility in the temperature range 550 to 630 K due to spin pinning, and coupled antiferromagnetic-ferroelectric transition, directly observed in the dielectric constant.
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Observation of an enhanced Curie tail in the low temperature susceptibility indicates the presence of uncompensated spins at the ends of the CuSe2O5 nanorods. The enhanced curie tail also contributes towards the shift in susceptibility hump of CuSe2O5 nanorods to ∼75 K (from ∼101 K for single crystal).
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