Cobalt substitution in these nanostructured perovskites increases ferromagnetic coupling and produces a maximum magnetic entropy change of 1.13 J/kg K under 3 T for the x=1 composition.
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Nanostructured La0.6Sr0.4CoO3 made by confinement synthesis exhibits enhanced magnetocaloric parameters linked to particle size and de-agglomeration, positioning it as a candidate for magnetic refrigeration.
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Magnetocaloric Effect in Nanostructured $La_{0.6}Sr_{0.4}Fe_{1-x}Co_{x}O_3$
Cobalt substitution in these nanostructured perovskites increases ferromagnetic coupling and produces a maximum magnetic entropy change of 1.13 J/kg K under 3 T for the x=1 composition.
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Magnetocaloric effect of nanostructured La0.6Sr0.4CoO3
Nanostructured La0.6Sr0.4CoO3 made by confinement synthesis exhibits enhanced magnetocaloric parameters linked to particle size and de-agglomeration, positioning it as a candidate for magnetic refrigeration.