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Enhanced exchange bias and improved ferromagnetic properties in Permalloy–BiFe0.95Co0.05O3 core–shell nanostructures

机译：坡莫合金BiFe0.95Co0.05O3核-壳纳米结构中增强的交换偏压和改善的铁磁性能

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Hybrid core–shell nanostructures consisting of permalloy (Ni80Fe20) and multiferroic(BiFeO3, BFO/BiFe0.95Co0.05O3, BFC) materials were synthesized by a two-step method, based on wet chemical impregnation and subsequent electrodeposition within porous alumina membranes. Structural and magnetic characterizations have been done to investigate doping effect on magnetic properties and exchange bias. The magnetometry analysis revealed significant enhancements of the exchange bias and coercivity in NiFe-BFC core-shell nanostructures as compared with NiFe-BFO core-shell nanostructures. The enhancements can be attributed to the effective reduction of ferromagnet domain sizes between adjacent layers of core-shell structure. It indicates that it is possible to improve properties of multiferroic composites by site-engineering method. Our approach opens a pathway to obtain optimized nanostructured multiferroic composites exhibiting tunable magnetic properties.

机译：基于湿化学浸渍和随后在多孔氧化铝膜内进行电沉积的两步方法，合成了由坡莫合金（Ni80Fe20）和多铁性金属（BiFeO3，BFO / BiFe0.95Co0.05O3，BFC）组成的核-壳纳米结构。已经进行了结构和磁性表征，以研究掺杂对磁性和交换偏压的影响。磁力分析表明，与NiFe-BFO核-壳纳米结构相比，NiFe-BFC核-壳纳米结构的交换偏压和矫顽力显着提高。增强可以归因于有效减小铁心-壳结构的相邻层之间的铁磁体畴尺寸。这表明可以通过现场工程方法改善多铁性复合材料的性能。我们的方法为获得优化的具有可调磁性能的纳米结构多铁复合材料开辟了道路。

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期刊名称 Scientific Reports
作者
K. Javed; W. J. Li; S. S. Ali; D. W. Shi; U. Khan; S. Riaz; X. F. Han;
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年(卷),期 -1(5),-1
年度 -1
页码 18203
总页数 9
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1. Enhanced exchange bias and improved ferromagnetic properties in Permalloy–BiFe_0.95Co_0.05O₃ core–shell nanostructures [J] . K. Javed, W. J. Li, S. S. Ali, Scientific reports. . 2015,第1期

机译：坡莫合金BiFe _{0.95 Co _{0.05 O _{3 核-壳纳米结构中增强的交换偏压和改善的铁磁性能}}}
2. Enhanced exchange bias and improved ferromagnetic properties in Permalloy–BiFe_0.95Co_0.05O₃ core–shell nanostructures [J] . K. Javed, W. J. Li, S. S. Ali, Scientific reports. . 2015,第1期

机译：坡莫合金BiFe _{0.95 Co _{0.05 O _{3 核-壳纳米结构中增强的交换偏压和改善的铁磁性能}}}
3. Enhancement of exchange bias in ferromagnetic/antiferromagnetic core-shell nanoparticles through ferromagnetic domain -wall formation [J] . Rui Wu, Shilei Ding, Youfang Lai, Physical Review. B, Condensed Matter . 2018,第2期

机译：通过铁磁畴壁形成增强铁磁/反铁磁核壳纳米粒子的交换偏压
4. Size dependence of exchange bias in a single composite nanoparticle with inverted ferromagnetic-antiferromagnetic core-shell morphology [C] . Yong Hu, An Du 2010 International conference of international conference on combating land degradation in agricultral areas. . 2010

机译：具有反铁磁-反铁磁核-壳形态的单个复合纳米颗粒中交换偏压的尺寸依赖性
5. Multiferroic and core-shell nanostructures - Advances in preparations and novel properties. [D] . Chu, I-Wei. 2010

机译：多铁性和核壳纳米结构-制备和新特性方面的进展。
6. Enhanced Ethanol Gas Sensing Properties of SnO2-Core/ZnO-Shell Nanostructures [O] . T. Tharsika, A. S. M. A. Haseeb, Sheikh A. Akbar, 2014

机译：SnO2-Core / ZnO-壳纳米结构增强的乙醇气敏特性
7. Effect of Antiferromagnetic Anisotropy on Exchange Bias in a Single Composite Nanoparticle with Unconventional Antiferromagnetic-Ferromagnetic Core-Shell Morphology [O] . Yong Hu, Yan Liu, Yan Qi, 2011

机译：反铁磁各向异性对单一复合纳米粒子交换偏压的影响，具有非常规反铁磁性铁磁核心壳形态学

Enhanced exchange bias and improved ferromagnetic properties in Permalloy–BiFe0.95Co0.05O3 core–shell nanostructures

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