Synthesis, structure, morphology, magnetism, and magnetocaloric-effect studies of (La1−xPrx)0.7Sr0.3MnO3 nanocrystalline perovskites
Turkiya M. Al-Shahumi, I. A. Al‐Omari, S. H. Al-Harthi, Myo Tay Zar Myint
Abstract
Abstract Single-Phase (La 1–x Pr x ) 0.7 Sr 0.3 MnO 3 (x = 0.0, 0.2, 0.4, 0.6, 0.8, and 1.0) perovskites were synthesized by the sol–gel method followed by sintering at 700 °C for 5 h. Samples with x = 0.0–0.4 are found to crystallize into rhombohedral structure (R-3c space group) while the ones with x = 0.6–1.0 crystallize into orthorhombic structure (Pbnm space group). The average particle size of the samples was in the range of 21–44 nm. All samples exhibit a ferromagnetic to paramagnetic second-order magnetic phase transition at Curie temperature, which is found to decrease linearly with increasing the Pr concentration. The magnetic coercivity was found to be small (~ 10 Oe) for all the samples, at T < T C . The experimental effective paramagnetic moment (µ eff ) is found to increase with increasing x from 3.99 µ B (x = 0.0) to 5.05 µ B (x = 1.0). The magnitude of the maximum magnetic entropy change (−ΔS M ) max. and the relative cooling power (RCP) for the samples having orthorhombic structure increases as x increases reaching a maximum value of 4.67 J/kg.K and 574 J/kg at Δµ o H = 9 T for x = 1.0. While the ones with the rhombohedral structure have the maximum values of (−ΔS M ) max. and RCP of 4.63 J/kg.K and 472 J/kg at Δµ o H = 9 T are for x = 0.2. The large values of (−ΔS M ) max. and RCP (at room temperature (RT)) and the wider temperature range of −ΔS M for the sample with x = 0.6 suggests that this compound may be considered as magnetic refrigerant material at RT, and the other compounds can be candidates in the vicinity of RT.