Magnetic-control-electric and reversal behavior of ZnO/NiFe/ZnO multilayer films

Po-Wei Chi,Yeong-Der Yao,Chin-Chung Yu,Da-Hua Wei

doi:10.1063/1.4975049

Po-Wei Chi, Yeong-Der Yao + Show 2 more

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https://doi.org/10.1063/1.4975049

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Abstract

The magnetic-control-electric and corresponding dielectric behavior of the ZnO/NiFe/ZnO multilayer films have been demonstrated by applying an ultrathin bimetallic NiFe inserting layer into ZnO films, and fabricated by radio-frequency magnetron sputtering at room temperature without introducing any oxygen gas during deposition process. At first, a high quality crystalline ZnO(002) textured film was deposited and exhibited a dielectric constant value of around 10 confirmed at room temperature with the Agilent 42941B probe and 4294A impedance meters ranged from 40 Hz to 20 MHz. Once ZnO inserted with a 5 nm-thick NiFe inserting layer, the value of dielectric constant was dramatically increased from 10 to 12.5. This phenomenon can be attributed to redistribute the strongly interface charges between ZnO and NiFe layers and accompany with the relaxation of internal stress of ZnO. On the other hand, the external magnetic field induced dielectric variation can also be clearly observed, and the ZnO film with NiFe inserting layer demonstrates a 0.05%-0.10% dielectric tunability. The magnetic-control-electric and corresponding dielectric behavior of ZnO/NiFe/ZnO multilayers with a single inserting NiFe layer compared with that of pure ZnO film also conclude the magnetoelectric effect in present multilayered structures. Moreover, the grain size of the ZnO films was gradually increased from 32.5 nm to 40.5 nm while inserting with an ultrathin NiFe bimetallic layer. This grain structure transition can be attributed to the lattice misfit between ZnO and NiFe. This research work demonstrates that a single NiFe insering layer can effectively control the dielectric and magnetic characters in the ZnO/NiFe/ZnO multilayered structures and provide valuable multifunctional behaviors for potential novel applications design such as ferroic sensor.

Highlights

Polar Zinc oxide (ZnO) has been regarded as an important candidate due to its direct wide band gap (3.37 eV), high exciton binding energy (60 meV), optical transparent for visible light
It is suggested that dielectric constant of the ZnO/NiFe/ZnO multilayer films gets prompt improvement
For pure ZnO films, a larger dielectric constant value of around 31 can be observed in the low frequency regions, and this phenomenon is due to the space charges move under this field and trapped at the interfaces between defects forming many dipole moments

Summary

INTRODUCTION

For above various suitable applications of ZnO, the combination of ZnO with other functional materials has attracted considerable interest, especially combine with some magnetic metals This idea leads to scientific interest and technological concern with its magnetoelectric property. The contents of nickel are 50% and 80%, which exhibit high saturation magnetization (Ms) and low coercivity without any magnetostrictive effect.[15]. In this present research work, we observed the enhancement of dielectric properties of ZnO thin film with an ultrathin NiFe bimetallic inserting layer under the frequency ranged from 40 Hz to 20 MHz. The crystalline structure for pure ZnO and ZnO/NiFe/ZnO multilayer films were characterized. This research work extends the scope of potential magnetoelectric applications for ZnO/NiFe/ZnO multilayer structures and provides the potential development of magnetic-driven nanodevice

EXPERIMENTAL PROCEDURES

RESULTS AND DISCUSSION

CONCLUSIONS