The mechanical, ferroelectric, and ferromagnetic properties of materials with dimensions in the nanometer range differ significantly from their bulk properties. Unique magnetic properties can be tailored through compositional and morphological control of the deposited nanostructures. These unique properties significantly increase the potential of magnetic nanostructures as active materials in many modern electronic and magnetic devices such as high density data storage devices, power conversion and energy storage devices. In this study, we synthesize Ni-Fe nanotubes of varying compositions via electroless deposition using both dimethylamine borane (DMAB) and sodium hypophosphite as reducing agents. We investigate the structure and magnetic properties of NiFe nanotubes with 10 <; X <; 68.
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机译:尺寸在纳米范围内的材料的机械,铁电和铁磁性能与它们的整体性能有很大差异。可以通过沉积纳米结构的组成和形态控制来调整独特的磁性。这些独特的性能显着提高了磁性纳米结构在许多现代电子和磁性设备(例如高密度数据存储设备,功率转换和能量存储设备)中作为活性材料的潜力。在这项研究中,我们通过化学沉积使用二甲胺硼烷(DMAB)和次磷酸钠作为还原剂,合成了各种成分的Ni-Fe纳米管。我们研究了10 <;的NiFe纳米管的结构和磁性。 X <; 68。
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