Evolution of Structure, Microstructure, Electrical and Magnetic Properties of Nickel Oxide (NiO) with Transition Metal ion Doping

P. Mallick, N. Mishra
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引用次数: 44

Abstract

We present a brief review on the evolution of structure, microstructure, electrical and magnetic properties of NiO with transition metal (TM) doping. The fcc structure of NiO is not affected with TM doping whereas the some of the TM ion influences the microstructure. The antiferromagnetic property of NiO is strongly modified with some of the TM (Fe, Mn, V) doping and the same is not much affected with some other TM (Co, Cr, Zn and Cu) doping. Not only the dopants but also the form of the material decides the magnetic order in the host matrix. Powder NiO exhibits room tem- perature ferromagnetism with Fe doping, superparamagnetism with Mn doping. NiO thin films on the other hand exhibit ferromagnetism with Fe, Mn and V doping. The ferromagnetic ordering in these cases was improved with Li co-doping. The increased ferromagnetism in these cases may be due to increase of hole concentration due to Li doping. Giant dielectric response has been observed for (Li, Fe) and (Li, V) doped NiO ceramics.
过渡金属离子掺杂氧化镍(NiO)的结构、微观结构、电性能和磁性能演变
本文综述了过渡金属(TM)掺杂后NiO的结构、微观结构、电学和磁学性能的演变。TM不影响NiO的fcc结构,但部分TM离子对其微观结构有影响。某些TM (Fe, Mn, V)掺杂对NiO的反铁磁性能有较强的影响,而其他TM (Co, Cr, Zn, Cu)掺杂对NiO的反铁磁性能影响不大。掺杂剂和材料的形态决定了基体的磁序。Fe掺杂的NiO粉末具有室温铁磁性,Mn掺杂的NiO粉末具有超顺磁性。另一方面,掺杂Fe、Mn和V的NiO薄膜表现出铁磁性。在这些情况下,Li共掺杂改善了铁磁有序性。在这些情况下,铁磁性的增加可能是由于Li掺杂增加了空穴浓度。在(Li, Fe)和(Li, V)掺杂的NiO陶瓷中观察到巨大的介电响应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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