D. Neupane, Jacob Casey, Jolaikha Sultana, A. Pathak, S. Karna, S. Pollard, S. Mishra
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引用次数: 2
摘要
合成了纳米颗粒、纳米棒、纳米球和纳米板等不同形态的单相Gd2O3纳米结构。采用水热法制备了Gd2O3的一维纳米棒和二维纳米板结构,采用均匀沉淀法制备了三维空心纳米球。研究了Gd2O3纳米颗粒的磁性和磁热性能随温度和场的变化规律。该材料在3-300 K的测量温度范围内表现出典型的顺磁性。磁熵变(−ΔS M)决心从磁等温线以3-38 K温度范围在5 t的最大磁熵变化ΔSMmax值11.2 J公斤−1 K−1 nanoplate, 9.4 J公斤−1 K−1奈米棒,9.2 J公斤−1 K nanosphere−1,和10.7 J公斤−1 K−1纳米样本的观察到温度5 K 5 t的磁场由于大型ΔSMmax,这些Gd2O3纳米结构粒子将被认为是极有前途的低温磁致冷材料。
Magnetocaloric properties of shape-dependent nanostructured Gd2O3 oxide particles
Single-phase Gd2O3 nanostructures with different morphologies, such as nanoparticles, nanorods, nanospheres, and nanoplates, were synthesised. Gd2O3 1D nanorods and 2D nanoplate architectures were prepared via the hydrothermal method, while 3D hollow nanospheres were synthesised via homogeneous precipitation. The magnetic and magnetocaloric properties of Gd2O3 nanostructured particles were studied as functions of temperature and field. The material demonstrated typical paramagnetic behaviour in the measured temperature range of 3–300 K. The magnetic entropy change (−ΔS M ) was determined from the magnetic isotherms measured in the 3–38 K temperature range in the field up to 5 T. The maximum change in magnetic entropy ΔSMmax value 11.2 J kg−1 K−1 for the nanoplate, 9.4 J kg−1 K−1 for the nanorod, 9.2 J kg−1 K−1 for the nanosphere, and 10.7 J kg−1 K−1 for the nanoparticle sample was observed at temperature 5 K for the magnetic field of 5 T. Owing to large ΔSMmax, these Gd2O3 nanostructured particles would be considered promising materials for magnetic refrigeration at cryogenic temperatures.
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