P. Granitzer, K. Rumpf, R. Gonzalez-Rodriguez, J. Coffer, Manfred Nachtnebel
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引用次数: 0
摘要
本研究讨论了由嵌入镍、镍钴、铂铁和氧化铁结构的多孔硅(PSi)和纳米硅管(SiNTs)组成的各种复合材料系统的磁化温度依赖性。温度在 80 至 1273 K 之间变化,从而确定了复合材料的居里温度,该温度高于相应的块体材料。多孔硅(孔径和孔间距)或纳米硅管(内径和壁厚)的形态以及孔内沉积物的分布和大小可以控制金属沉积物之间的磁交。要清楚地了解磁性相互作用,仅靠单一的磁滞曲线是不够的,因此要进行一阶反向曲线(FORC)分析。镍、钴和镍钴沉积物存在磁耦合,而在装载 Fe3O4 和 FePt 纳米粒子的情况下,粒子之间没有磁交扰。
High Temperature and FORC Investigations of Semiconducting/Ferromagnetic Nanocomposites
In the frame of this work the temperature-dependency of the magnetization of various composite systems consisting of porous silicon (PSi) and silicon nanotubes (SiNTs) with embedded Ni, NiCo, FePt, and Fe3O4 structures is discussed. The temperature is varied between 80 and 1273 K which allows to determine the Curie Temperature of the composites which is higher than for the corresponding bulk materials. Magnetic cross-talk between metal deposits can be controlled by the morphology of the porous silicon (pore diameter and distance between the pores) or silicon nanotubes (inner diameter and wall thickness) and also by the distribution and size of the deposits within the pores. To get a clear knowledge about the magnetic interactions single hysteresis curves are not sufficient and thus first order reversal curves (FORC) are performed. Magnetic coupling is present for Ni, Co and NiCo deposits, whereas in the case of Fe3O4 and FePt nanoparticle loading no magnetic cross-talk between the particles is observed.
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