dy掺杂La0.51Sr0.49MnO₃纳米粒子：通过溶胶-凝胶合成调整结构和磁热学性质，用于节能应用

Nano Trends Pub Date : 2024-12-26 DOI:10.1016/j.nwnano.2024.100069

Mourad Smari , Riheb Hamdi , Said A. Mansour , Mohammad Y. Al-Haik , Yahya Zakaria , Yousef Haik

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摘要

本文报道了溶胶-凝胶法制备的平均尺寸约为27 ~ 29 nm的掺杂纳米La0.51Sr0.49MnO3的结构和磁性能。利用能量色散x射线分析和x射线光电子能谱法确定了其化学成分。样品的磁化行为表明，在零场冷变暖、场冷变暖和场冷变暖这三种冷却和变暖过程中，样品的磁化行为从铁磁状态转变为顺磁状态。随着Dy3+浓度的增加，居里温度从372 K下降到317 K。当外加磁场从1T变为5T时，La0.51Sr0.49MnO3样品的相对冷却功率值在62 ~ 387 J/kg之间，约占5T下平均制冷剂Gd物质的95%。为了维持平均场理论，确定了临界指数为（Dy0.00 = β = 0.541, γ = 0.991），（Dy0.045 = β = 0.559, γ = 0.954）和（Dy0.09 = 0.570, γ = 1.103）。镝掺杂不改变普适类，表明材料的基本行为不受影响。这种纳米材料具有相当强的磁热响应，而且价格低廉，使其成为有源磁性冰箱的可能材料。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Dy-Doped La0.51Sr0.49MnO₃ nanoparticles: Tuning structural and magnetocaloric properties via Sol-Gel synthesis for energy-efficient applications

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Dy-Doped La0.51Sr0.49MnO₃ nanoparticles: Tuning structural and magnetocaloric properties via Sol-Gel synthesis for energy-efficient applications

We report the structural and magnetic properties of sol-gel-synthesized Dy-doped La_0.51Sr_0.49MnO₃ nanoparticles, which average ≈ 27–29 nm in size. The chemical composition was confirmed using energy dispersive X-ray analysis and X-ray photoelectron spectroscopy. The magnetization behavior of the samples showed clear evidence of a transition from ferromagnetic to paramagnetic states in all three cooling and warming processes: Zero Field-Cooled Warming, Field-Cooled Cooling, and Field-Cooled Warming. The Curie temperature exhibits a drop as the concentration of Dy³⁺ increases, from 372 K to 317 K. Approximately 95 % of the average refrigerant Gd material under 5T is found in the relative cooling power values of the La_0.51Sr_0.49MnO₃ sample, which range from 62 to 387 J/kg when the applied magnetic field is changed from 1T to 5T. In maintaining with the mean-field theory, the critical exponents were determined to be (β = 0.541 and γ = 0.991 for Dy0.00), (β = 0.559 and γ = 0.954 for Dy0.045), and (β = 0.570 and γ = 1.103 for Dy0.09). Dysprosium doping does not alter the universality class, indicating that the material's fundamental behavior remains unaffected. This nanomaterial has a reasonably strong magnetocaloric response and is inexpensive, making it a possible material for active magnetic refrigerators.

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