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Tuning the Magnetic Anisotropy of Fe3O4/Pt Heterostructures Fabricated by Atomic Layer Deposition With In Situ Magnetic Field SCIE
期刊论文 | 2019 , 55 (3) | IEEE TRANSACTIONS ON MAGNETICS
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Abstract :

Research on tuning the magnetic anisotropy of magnetic heterostructures has been receiving intensive attentions due to their intriguing tuning phenomena. In particular, tuning the magnetic anisotropy by in situ magnetic field during the fabrication process allows a remarkable control of magnetism with energy efficiency and shows significant potential applications for compact, fast, and low-power microwave and electronic devices. In this paper, in situ external out-of-plane and in-plane magnetic fields were applied during the deposition of Fe3O4 thin films on Pt substrates by atomic layer deposition at different temperatures (350 degrees C, 400 degrees C, and 450 degrees C). The effects of in situ magnetic field with different directions on the surface morphologies and magnetic properties of Fe3O4/Pt heterostructures were characterized. It was found that both the out-of-plane and in-plane external magnetic fields tuned the magnetic anisotropy of ferromagnetic Fe3O4 when deposited at 400 degrees C with the maximum resonance field changes of 620 and 1930 Oe along in-plane and out-of-plane directions, respectively. This paper achieves tuning the magnetic properties through in situ magnetic field and provides a possibility for spintronic devices.

Keyword :

Fe3O4/Pt heterostructures magnetic anisotropy Atomic layer deposition (ALD) in situ magnetic field

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GB/T 7714 Zhang, Le , Zhou, Ziyao , Zhang, Yijun et al. Tuning the Magnetic Anisotropy of Fe3O4/Pt Heterostructures Fabricated by Atomic Layer Deposition With In Situ Magnetic Field [J]. | IEEE TRANSACTIONS ON MAGNETICS , 2019 , 55 (3) .
MLA Zhang, Le et al. "Tuning the Magnetic Anisotropy of Fe3O4/Pt Heterostructures Fabricated by Atomic Layer Deposition With In Situ Magnetic Field" . | IEEE TRANSACTIONS ON MAGNETICS 55 . 3 (2019) .
APA Zhang, Le , Zhou, Ziyao , Zhang, Yijun , Peng, Bin , Ren, Wei , Ye, Zuo-Guang et al. Tuning the Magnetic Anisotropy of Fe3O4/Pt Heterostructures Fabricated by Atomic Layer Deposition With In Situ Magnetic Field . | IEEE TRANSACTIONS ON MAGNETICS , 2019 , 55 (3) .
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Microstructure and thermoelectric properties of In2O3/ITO thin film thermocouples with Al2O3 protecting layer EI SCIE
期刊论文 | 2019 , 30 (2) , 1786-1793 | Journal of Materials Science: Materials in Electronics
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Abstract :

In2O3/ITO thin film thermocouples (TFTCs) with alumina protecting layer were fabricated on alumina substrates. The effects of protecting layer on their performance at higher temperature and long term service were investigated accordingly. In2O3 and ITO thin films were prepared by radio frequency magnetron sputtering methods, while the alumina protecting layer was prepared by traditional spin-coating methods. Microstructural and thermoelectric properties of the In2O3/ITO TFTCs with and without alumina (Al2O3) protecting layer were investigated as a function of sintering time from 2 to 10 h at 1250 °C. The results show that, the existence of alumina protecting layer can effectively increase the performance capabilities of thermocouples at high temperatures by inhibiting the volatilization of the thin film. In2O3/ITO TFTCs with protecting layer can work normally over 10 h at 1250 °C while Seebeck coefficient is 131.7 µV/°C. The drift rate can reach 3.05 °C/h, which is much better than those without protecting layer. © 2018, Springer Science+Business Media, LLC, part of Springer Nature.

Keyword :

Alumina substrates Long term service Performance capability Protecting layer Radio frequency magnetron sputtering method Spin-coating method Thermoelectric properties Thin film thermocouple

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GB/T 7714 Liu, Yantao , Ren, Wei , Shi, Peng et al. Microstructure and thermoelectric properties of In2O3/ITO thin film thermocouples with Al2O3 protecting layer [J]. | Journal of Materials Science: Materials in Electronics , 2019 , 30 (2) : 1786-1793 .
MLA Liu, Yantao et al. "Microstructure and thermoelectric properties of In2O3/ITO thin film thermocouples with Al2O3 protecting layer" . | Journal of Materials Science: Materials in Electronics 30 . 2 (2019) : 1786-1793 .
APA Liu, Yantao , Ren, Wei , Shi, Peng , Liu, Dan , Zhang, Yijun , Liu, Ming et al. Microstructure and thermoelectric properties of In2O3/ITO thin film thermocouples with Al2O3 protecting layer . | Journal of Materials Science: Materials in Electronics , 2019 , 30 (2) , 1786-1793 .
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New Antiferroelectric Perovskite System with Ultrahigh Energy-Storage Performance at Low Electric Field SCIE
期刊论文 | 2019 , 31 (3) , 979-990 | CHEMISTRY OF MATERIALS
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The development of antiferroelectric (AFE) materials with high recoverable energy-storage density (W-rec) and energy-storage efficiency (eta) is of great importance for meeting the requirements of miniaturization and integration for advanced pulse power capacitors. However, the drawbacks of traditional AFE materials, namely, high critical field (E-cr) and low W-rec, make them unsuitable to be utilized in practical applications. To W-rec and eta, here we report an effective approach using the transient liquid-phase sintering and the softening of antiferroelectric order to decrease the porosity, enhance the dielectric breakdown strength (DBS), and increase the maximum electric-field-induced polarization (P-max) of the AFE ceramics. On the basis of this concept, a novel solid solution of (1 - x)PbHfO3-xPb(Mg1/2W1/2)O-3 [(1 - x)PHf-xPMW] was designed and prepared in the form of ceramics by the solid-state reaction method. Their crystal structures, phase transitions, dielectric properties, and energy-storage properties were investigated systemically. X-ray diffraction analysis indicates the formation of solid solution with a partial order on the B site at room temperature in a broad composition range. Dielectric measurements reveal that the AFE to ferroelectric (FE) phase-transition temperature shifts toward room temperature with the increasing Pb(Mg1/2W1/2)O-3 (PMW) content. The optimal energy-storage performance is found for the 0.90PHf-0.10PMW ceramic with the highest W-rec of 3.7 J/cm(3) (at a relatively low electric field of 155 kV/cm) and a favorable eta of 72.5% among all of the studied compositions, which is much superior to that of the so far reported perovskite ceramics under the similar electric fields. This is the first reported PHf-based solid solution with ultrahigh energy-storage density. The enhanced energy-storage performance can be attributed to the improved DBS and enhanced P-max (45 mu C/cm(2)) due to the incorporation of PMW that leads to dense microstructure and softens the antiferroelectricity. The results show that the (1 - x)PHf-xPMW ceramics form a new family of promising AFE candidates with significantly enhanced DBS, W-rec, and eta. This work also demonstrates the design methodology for developing not only the PbHfO3-based but also other new AFE-AFE solid solution material for high-energy-storage applications.

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GB/T 7714 Gao, Pan , Liu, Zenghui , Zhang, Nan et al. New Antiferroelectric Perovskite System with Ultrahigh Energy-Storage Performance at Low Electric Field [J]. | CHEMISTRY OF MATERIALS , 2019 , 31 (3) : 979-990 .
MLA Gao, Pan et al. "New Antiferroelectric Perovskite System with Ultrahigh Energy-Storage Performance at Low Electric Field" . | CHEMISTRY OF MATERIALS 31 . 3 (2019) : 979-990 .
APA Gao, Pan , Liu, Zenghui , Zhang, Nan , Wu, Hua , Bokov, Alexei A. , Ren, Wei et al. New Antiferroelectric Perovskite System with Ultrahigh Energy-Storage Performance at Low Electric Field . | CHEMISTRY OF MATERIALS , 2019 , 31 (3) , 979-990 .
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Chemically engineered multiferroic morphotropic phase boundary in BiFeO3-based single phase multiferroics SCIE
期刊论文 | 2019 , 125 (4) , 10 | JOURNAL OF APPLIED PHYSICS
WoS CC Cited Count: 1
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As the reach points of different phases with complex structural features, a morphotropic phase boundary (MPB) in ferroelectric and ferromagnetic solid solutions can significantly enhance the piezoelectric performance and magnetostrictive response, respectively. Recently, the phase-change functional responses related to the multiferroic MPB are proposed to be a promising way to enhance the magnetoelectric coupling in BiFeO3-based single phase multiferroics. In this work, we verify the tunable magnetic ordering and the construction of the multiferroic MPB by engineering the chemical concentrations of the ferroelectric/nonmagnetic PbTiO3 end in the (1 - x) Bi0.9Dy0.1FeO3-xPbTiO3 binary solid solution ceramic system. Based on the results obtained in this work and reported in the literature, the structure-ferroic properties phase diagram of the BiFeO3-DyFeO3-PbTiO3 ternary system is established, where a compositional region with coexisting ferroelectric polarization and ferromagnetic moment is found. More importantly, a multiferroic MPB line separating two chemical regions with distinct crystal structures and ferroic orderings is discovered in the phase diagram. The phase changing nature of MPB compositions with temperature and compositions is investigated from room temperature to high temperature paraelectric phase. This work could provide a promising system to explore the highly desired colossal effects on magnetoelectric coupling in single phase multiferroics by phase-change functional responses. Published under license by AIP Publishing.

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GB/T 7714 Zhuang, Jian , Lu, Jinming , Zhang, Nan et al. Chemically engineered multiferroic morphotropic phase boundary in BiFeO3-based single phase multiferroics [J]. | JOURNAL OF APPLIED PHYSICS , 2019 , 125 (4) : 10 .
MLA Zhuang, Jian et al. "Chemically engineered multiferroic morphotropic phase boundary in BiFeO3-based single phase multiferroics" . | JOURNAL OF APPLIED PHYSICS 125 . 4 (2019) : 10 .
APA Zhuang, Jian , Lu, Jinming , Zhang, Nan , Zhang, Jie , Bokov, Alexei A. , Yang, Shuming et al. Chemically engineered multiferroic morphotropic phase boundary in BiFeO3-based single phase multiferroics . | JOURNAL OF APPLIED PHYSICS , 2019 , 125 (4) , 10 .
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Ionic Modulation of Interfacial Magnetism in Light Metal/Ferromagnetic Insulator Layered Nanostructures EI Scopus SCIE
期刊论文 | 2019 , 29 (1) | Advanced Functional Materials
WoS CC Cited Count: 3 SCOPUS Cited Count: 2
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© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim Ferromagnetic insulator thin film nanostructures are becoming the key component of the state-of-the-art spintronic devices, for instance, yttrium iron garnet (YIG) with low damping, high Curie temperature, and high resistivity is explored into many spin–orbit interactions related spintronic devices. Voltage modulation of YIG, with great practical/theoretical significance, thus can be widely applied in various YIG-based spintronics effects. Nevertheless, to manipulate ferromagnetism of YIG through electric field (E-field), instead of current, in an energy efficient manner is essentially challenging. Here, a YIG/Cu/Pt layered nanostructure with a weak spin–orbit coupling interaction is fabricated, and then the interfacial magnetism of the Cu and YIG is modified via ionic liquid gating method significantly. A record-high E-field-induced ferromagnetic resonance field shift of 1400 Oe is achieved in YIG (17 nm)/Cu (5 nm)/Pt (3 nm)/ionic liquid/Au capacitor layered nanostructures with a small voltage bias of 4.5 V. The giant magnetoelectric tunability comes from voltage-induced extra ferromagnetic ordering in Cu layer, confirmed by the first-principle calculation. This E-field modulation of interfacial magnetism between light metal and magnetic isolator may open a door toward compact, high-performance, and energy-efficient spintronic devices.

Keyword :

Cu magnetization ferromagnetic resonance ionic liquid gating magnetoelectric coupling yttrium iron garnet

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GB/T 7714 Guan, Mengmeng , Wang, Lei , Zhao, Shishun et al. Ionic Modulation of Interfacial Magnetism in Light Metal/Ferromagnetic Insulator Layered Nanostructures [J]. | Advanced Functional Materials , 2019 , 29 (1) .
MLA Guan, Mengmeng et al. "Ionic Modulation of Interfacial Magnetism in Light Metal/Ferromagnetic Insulator Layered Nanostructures" . | Advanced Functional Materials 29 . 1 (2019) .
APA Guan, Mengmeng , Wang, Lei , Zhao, Shishun , Peng, Bin , Su, Wei , He, Zhexi et al. Ionic Modulation of Interfacial Magnetism in Light Metal/Ferromagnetic Insulator Layered Nanostructures . | Advanced Functional Materials , 2019 , 29 (1) .
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Temperature induced interface and optical properties of the multi-layer nanotube network EI SCIE Scopus
期刊论文 | 2018 , 123 (22) | JOURNAL OF APPLIED PHYSICS
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The ever-increasing demand for larger surface area, well-defined, and conformal multi-layer nanostructures in gas sensor, catalyst and solar cell applications has propelled the exploration of such nanostructures within an atomic resolution. The atomic layer deposition (ALD) technique is ideal for the synthesis of these nanostructures due to its excellent step coverage ability on high aspect ratio nanostructures. In this work, different coaxial nanotube networks are successfully fabricated by electrospinning and ALD, with a well-controlled phase. We systematically studied the temperature-induced microstructures and photoluminescence property evolution of the nanotube network. The Al2O3/ZnO/Al2O3 tri-layer nanotube network is obtained by sintering at 400 degrees C, and a ZnAl2O4 core-shell nanotube structure has formed by the Kirkendall effect by further post-annealing at 700 degrees C. Oxygen accumulation is clearly observed at the small neck feature, but the Zn and Al elements are uniformly distributed along the whole nanotube. Photoluminescence emission obtained in this work is so broad that it almost covers the whole visible light wavelength range. The results indicate that the microstructures and photoluminescence properties can be well-controlled by the post-annealing temperature. It provides an available platform for realizing conformal 3D nano-devices. Published by AIP Publishing.

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GB/T 7714 Zhang, Yijun , Liu, Ming , Peng, Bin et al. Temperature induced interface and optical properties of the multi-layer nanotube network [J]. | JOURNAL OF APPLIED PHYSICS , 2018 , 123 (22) .
MLA Zhang, Yijun et al. "Temperature induced interface and optical properties of the multi-layer nanotube network" . | JOURNAL OF APPLIED PHYSICS 123 . 22 (2018) .
APA Zhang, Yijun , Liu, Ming , Peng, Bin , Zhou, Ziyao , Wang, Chenying , Jing, Weixuan et al. Temperature induced interface and optical properties of the multi-layer nanotube network . | JOURNAL OF APPLIED PHYSICS , 2018 , 123 (22) .
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Achieving Higher Strength and Sensitivity toward UV Light in Multifunctional Composites by Controlling the Thickness of Nanolayer on the Surface of Glass Fiber EI SCIE PubMed Scopus
期刊论文 | 2018 , 10 (27) , 23399-23405 | ACS APPLIED MATERIALS & INTERFACES
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The interphase between fiber and matrix plays an essential role in the performance of composites. Therefore, the ability to design or modify the interphase is a key technology needed to manufacture stronger and smarter composite. Recently, depositing nanomaterials onto the surface of the fiber has become a promising approach to optimize the interphase and composites. But, the modified composites have not reached the highest strength yet, because the determining parameters, such as thickness of the nanolayer, are hardly controlled by the mentioned methods in reported works. Here, we deposit conformal ZnO nanolayer with various thicknesses onto the surfaces of glass fibers via the atomic layer deposition (ALD) method and a tremendous enhancement of interfacial shear strength of composites is achieved. Importantly, a critical thickness of ZnO nanolayer is obtained for the first time, giving rise to a maximal relative enhancement in the interfacial strength, which is more than 200% of the control fiber. In addition, the single modified fiber exhibits a potential application as a flexible, transparent, in situ UV detector in composites. And, we find the UV-sensitivity also shows a strong correlation with the thickness of ZnO. To reveal the dependence of UV-sensitivity on thickness, a depletion thickness is estimated by a proposed model which is an essential guide to design the detectors with higher sensitivity. Consequently, such precise tailoring of the interphase offers an advanced way to improve and to flexibly control various macroscopic properties of multifunctional composites of the next generation.

Keyword :

interfacial strength UV detector atomic layer deposition multifunctional composites ZnO nanolayer

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GB/T 7714 Sun, Chao , Zhang, Jie , Gao, Shang-Lin et al. Achieving Higher Strength and Sensitivity toward UV Light in Multifunctional Composites by Controlling the Thickness of Nanolayer on the Surface of Glass Fiber [J]. | ACS APPLIED MATERIALS & INTERFACES , 2018 , 10 (27) : 23399-23405 .
MLA Sun, Chao et al. "Achieving Higher Strength and Sensitivity toward UV Light in Multifunctional Composites by Controlling the Thickness of Nanolayer on the Surface of Glass Fiber" . | ACS APPLIED MATERIALS & INTERFACES 10 . 27 (2018) : 23399-23405 .
APA Sun, Chao , Zhang, Jie , Gao, Shang-Lin , Zhang, Nan , Zhang, Yi-Jun , Zhuang, Jian et al. Achieving Higher Strength and Sensitivity toward UV Light in Multifunctional Composites by Controlling the Thickness of Nanolayer on the Surface of Glass Fiber . | ACS APPLIED MATERIALS & INTERFACES , 2018 , 10 (27) , 23399-23405 .
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Determination of chemical ordering in the complex perovskite Pb(Cd1/3Nb2/3)O3 Scopus SCIE PubMed
期刊论文 | 2018 , 5 , 808-815 | IUCrJ
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© 2018 Caiyan Wang et al. Pure-phase Pb(Cd1/3Nb2/3)O3 (PCN) single crystals and ceramics with a complex perovskite structure are synthesized for the first time. The local chemical ordering in PCN has been investigated by X-ray diffraction (including diffuse scattering) and Cs-corrected transmission electron microscopy experiments. It is concluded that the PCN samples have large coherent chemical ordering regions that even extend to the long range, and the ordering model is consistent with β-type chemical ordered regions. The antiphase domain boundaries were also observed. Two dielectric anomaly peaks were found in these two types of samples, one of which indicates possible relaxor behaviour. The novel structure of the completely ordered regions and its relationship with the electrical properties make PCN a unique material for the fundamental understanding of chemically substituted perovskites.

Keyword :

atomic resolution EDS chemical ordering dielectric permittivity diffuse scattering electron microscopy perovskites relaxors

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GB/T 7714 Wang, Caiyan , Fu, Zhengqian , Zhang, Nan et al. Determination of chemical ordering in the complex perovskite Pb(Cd1/3Nb2/3)O3 [J]. | IUCrJ , 2018 , 5 : 808-815 .
MLA Wang, Caiyan et al. "Determination of chemical ordering in the complex perovskite Pb(Cd1/3Nb2/3)O3" . | IUCrJ 5 (2018) : 808-815 .
APA Wang, Caiyan , Fu, Zhengqian , Zhang, Nan , Paściak, Marek , Zhuang, Jian , Liu, Zenghui et al. Determination of chemical ordering in the complex perovskite Pb(Cd1/3Nb2/3)O3 . | IUCrJ , 2018 , 5 , 808-815 .
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Impact of quenched random fields on the ferroelectric-to-relaxor crossover in the solid solution (1-x)BaTi O3-xDyFe O3 Scopus SCIE
期刊论文 | 2018 , 98 (17) | Physical Review B
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© 2018 American Physical Society. Lead-based perovskite relaxor ferroelectrics are widely used as materials for numerous applications due to their extraordinary dielectric, piezoelectric, and electrostrictive properties. While the mechanisms of relaxor behavior are disputable, the importance of quenched (static) random electric fields created at nanoscale by the disordered heterovalent cations has been well recognized. Meanwhile, an increasing amount of scientific and technological efforts has been concentrated on lead-free perovskites, in particular, solid solutions of classical ferroelectric BaTiO3 (BT), which better meet ecological requirements. Among BT-based solutions the homovalent systems are elaborately studied where strong random electric fields are absent, while the solubility limit of heterovalent solutions is typically too low to fully reveal the peculiarities of relaxor behavior. In this paper, we prepare a perovskite solid solution system (1-x)Ba2+Ti4+O3-xDy3+Fe3+O3 (0≤x≤0.3) and study it as a model heterovalent lead-free system. We determine crystal structure, ferroelectric, and dielectric properties of ceramics in a wide range of temperatures and concentrations, construct a phase diagram, and find and analyze the concentration-induced crossover from normal ferroelectric to relaxor behavior. We demonstrate that quenched random electric fields of moderate strength promote the ferroelectric-to-relaxor crossover, but do not change qualitatively the peculiarities of relaxor behavior, while strong enough fields destroy the relaxor state, so that the material becomes an ordinary linear dielectric. The experimental results are compared with the predictions of known theories of relaxor ferroelectricity.

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GB/T 7714 Zhuang, Jian , Bokov, Alexei A. , Zhang, Nan et al. Impact of quenched random fields on the ferroelectric-to-relaxor crossover in the solid solution (1-x)BaTi O3-xDyFe O3 [J]. | Physical Review B , 2018 , 98 (17) .
MLA Zhuang, Jian et al. "Impact of quenched random fields on the ferroelectric-to-relaxor crossover in the solid solution (1-x)BaTi O3-xDyFe O3" . | Physical Review B 98 . 17 (2018) .
APA Zhuang, Jian , Bokov, Alexei A. , Zhang, Nan , Walker, David , Huo, Siqi , Zhang, Jie et al. Impact of quenched random fields on the ferroelectric-to-relaxor crossover in the solid solution (1-x)BaTi O3-xDyFe O3 . | Physical Review B , 2018 , 98 (17) .
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Synthesis, structure, dielectric properties and relaxor behavior of a novel solid solution (1-x)Pb(Mg1/3Nb2/3)O-3-xBi(Zn2/3Nb1/3)O-3 CPCI-S SCIE
会议论文 | 2018 , 534 (1) , 42-49 | 14th International Meeting on Ferroelectricity (IMF)
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A solid solution of (1-x) Pb(Mg1/3Nb2/3)O-3-xBi(Zn2/3Nb1/3)O-3 [(1-x)PMN-xBZN)] has been prepared in the form of ceramics with x = 0-0.20 by solid state reaction method. The crystal structure and dielectric properties are investigated. An enhanced relaxor behavior is found when incorporating BZN into canonical relaxor PMN due to the increased chemical disorder. The high temperature slope of dielectric constant as a function of temperature is consistent with the empirical quadratic law. The frequency dependence of the temperature of the dielectric maximum follows the Vogel-Fulcher (V-F) law.

Keyword :

perovskite dielectrics spectroscopy solid solution relaxor Pb(Mg1/3Nb2/3)O-3

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GB/T 7714 Liu, Z. , Yuan, Y. , Jaimeewong, P. et al. Synthesis, structure, dielectric properties and relaxor behavior of a novel solid solution (1-x)Pb(Mg1/3Nb2/3)O-3-xBi(Zn2/3Nb1/3)O-3 [C] . 2018 : 42-49 .
MLA Liu, Z. et al. "Synthesis, structure, dielectric properties and relaxor behavior of a novel solid solution (1-x)Pb(Mg1/3Nb2/3)O-3-xBi(Zn2/3Nb1/3)O-3" . (2018) : 42-49 .
APA Liu, Z. , Yuan, Y. , Jaimeewong, P. , Wu, H. , Ren, W. , Ye, Z. -G . Synthesis, structure, dielectric properties and relaxor behavior of a novel solid solution (1-x)Pb(Mg1/3Nb2/3)O-3-xBi(Zn2/3Nb1/3)O-3 . (2018) : 42-49 .
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