The influence of disorder on magnetocaloric effect and the order of transition in ferromagnetic manganite (La1−x Nd x )2/3(Ca1−y Sr y )1/3MnO3

Khelifi, J.; Tozri, A.; Dhahri, E.

doi:10.1007/s00339-014-8583-0

Cited by 18 publications

(4 citation statements)

References 54 publications

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“…The relative cooling power is the negative of the product of the maximum magnetic entropy change, and the full-width at half-maxima ( T FWHM ) can be carried out using Eq. 5 [34,35]: Another very important parameter for magnetic refrigeration is the relative cooling power (RCP) pointing to the transferred heat between the cold and the hot reservoirs in a refrigerator during one ideal thermodynamic cycle [36][37][38], and it is defined as:…”

Section: Theoretical Aspectsmentioning

confidence: 99%

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Theoretical Insights into the Stability of Perovskite Clusters by Studying Magnetization and Magnetocaloric Effect of Nd0.6Sr0.4MnO3 Compound at Room Temperature

2020

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The Nd0.6Sr0.4MnO3 sample has been synthesized by the solid-state reaction. In this research paper, structural, morphological, magnetic and magnetocaloric properties are reported. The refinement by Fullprof has revealed the coexistence of both Pnma orthorhombic and R-3c rhombohedral phases. The obtained magnetic results show a paramagnetic–ferromagnetic transition at TC = 245 K. The magnetocaloric effect was estimated from the magnetic isotherms. We can estimate that the magnetic entropy change (ΔS) values by the Hamad theory are very close to those obtained using the classical Maxwell relation. Under an applied field 5 T, the maximum of the magnetic entropy change (ΔS) max and the relative cooling power is found to be 3.68 J/kg K and 216.03 J/kg, respectively. The obtained values are compared with those of some other reported manganite and show that our compound could be a promising candidate for magnetic refrigeration. Finally, the construction of the universal curve of the magnetic entropy change confirmed the studied manganite undergoes a second-order magnetic phase transition.

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Section: Theoretical Aspectsmentioning

confidence: 99%

“…where a is a constant and the n exponent depends on the magnetic state of the sample. It can be locally calculated as follows [43,44]:…”

Section: Theoretical Aspectsmentioning

confidence: 99%

Theoretical Insights into the Stability of Perovskite Clusters by Studying Magnetization and Magnetocaloric Effect of Nd0.6Sr0.4MnO3 Compound at Room Temperature

2020

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“…[29][30][31][32][33] Taking cue from this, we envisioned that the cryogenic magnetic cooling behaviour of a Fe 3 + based metallogel with least periodic microstructure perfectly suit the purpose. [34][35][36][37][38] It is noteworthy here that Fe 3 + ion with characteristic 6 S 5/2 ground state term (S = 5/2, L = 0) fulfils two basic prerequisites for effective MCE, viz. (a) high spin: facilitating the largest entropy per metal centre, equals to a value of R ln(2S + 1), and (b) zero orbital momentum.…”

Section: Introductionmentioning

confidence: 99%

“…The extent of MCE depends on three major metal‐specific features: (i) large spin ground state, (ii) the zero orbital momentum and (c) the weak super‐exchange interactions [29–33] . Taking cue from this, we envisioned that the cryogenic magnetic cooling behaviour of a Fe 3+ based metallogel with least periodic microstructure perfectly suit the purpose [34–38] . It is noteworthy here that Fe 3+ ion with characteristic 6 S 5/2 ground state term (S=5/2, L=0) fulfils two basic prerequisites for effective MCE, viz.…”

Section: Introductionmentioning

confidence: 99%

Design of Dual Purpose Fe‐metallogel for Magnetic Refrigeration and Fabrication of Schottky Barrier Diode

et al. 2022

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The impetus for the present work was to design multifunctional inorganic materials that can be utilized in their original assynthesized state of the matter. Accordingly, we have successfully designed a benzene-tricarboxylic acid based dual-purpose Fe-metallogel that can be used as an efficient material for cryogenic magnetic cooling as well as electronic device fabrication as Schottky barrier diode in their original gel state. The metallogel shows remarkable mechanical strength, selfsustainability and thixotropic behaviour. The gel sample has been thoroughly characterized using IR, UV-Vis spectroscopy, SEM, TEM, AFM techniques, XPS and Mössbauer spectroscopy. The porous nature, which forms the basis of the current gel based MCE study and SBD fabrication, was confirmed with gas sorption data. The porous metallogel network with by-default entrapped anion and protic solvents of the fabricated electrical device provides an excellent platform for charge transportation with a corroborating conductivity value of 4.53 × 10 À 6 Sm À 1 . As if to complement the notion of multifunctional material, the magnetic studies on the Fe-gel show significant cryogenic magnetic cooling behaviour. The theoretical result calculated using DFT are found to be highly consistent with the experimental results of the metallogel. Furthermore, we have evaluated the potential of the compound as a fuel cell membrane with detailed proton conductivity measurements on the xerogel, showing an encouraging value of 4.58 × 10 À 4 S/ cmat 95 % relative humidity and 75 °C temperature.

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Critical exponents and magnetic entropy change across the continuous magnetic transition in (La, Pr)-Ba manganites

Tozri

Kamel²,

Mohamed³

et al. 2022

Appl. Phys. A

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The influence of disorder on magnetocaloric effect and the order of transition in ferromagnetic manganite (La1−x Nd x )2/3(Ca1−y Sr y )1/3MnO3

Cited by 18 publications

References 54 publications

Theoretical Insights into the Stability of Perovskite Clusters by Studying Magnetization and Magnetocaloric Effect of Nd0.6Sr0.4MnO3 Compound at Room Temperature

Theoretical Insights into the Stability of Perovskite Clusters by Studying Magnetization and Magnetocaloric Effect of Nd0.6Sr0.4MnO3 Compound at Room Temperature

Design of Dual Purpose Fe‐metallogel for Magnetic Refrigeration and Fabrication of Schottky Barrier Diode

Critical exponents and magnetic entropy change across the continuous magnetic transition in (La, Pr)-Ba manganites

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