Structure And Dielectric Properties Of Pure And Zinc Oxide Doped Barium Titanate PDF Download

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Structure and Dielectric Properties of Pure and Zinc Oxide-Doped Barium Titanate

Structure and Dielectric Properties of Pure and Zinc Oxide-Doped Barium Titanate
Author: M. Hasan
Publisher:
Total Pages: 9
Release: 2013
Genre: Barium titanate
ISBN:
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The effects of zinc oxide addition and sintering parameters on the structure and dielectric properties of barium titanate are observed. Different percentage of ZnO ranging from 0.30 to 1 wt. % is doped in barium titanate. Both the doped and undoped samples are sintered at temperatures ranging from 1250°C to 1325°C at different soaking times. The amount of densification of the doped and undoped samples is measured in terms of percentage theoretical density. Grain size and microstructural analysis is performed by a scanning electron microscope (SEM). Lattice parameters and tetragonality of doped and undoped barium titanate are calculated from x-ray diffraction pattern obtained from x-ray diffractometer (XRD) test. Dielectric properties of the samples are measured by an impedance analyzer. It is found that all the doped samples obtain their maximum percentage theoretical density at a lower sintering temperature compared to the undoped sample. SEM study reveals that the doped samples always show smaller grains compared to the undoped sample. Significant grain growth is observed in all of the samples at sintering temperatures above 1300°C. The evidence of surface melting is observed in 1 wt. % ZnO-doped sample soaked at 1325°C for 2 h. The presence of liquid at that sintering condition is explained by the doping mechanism of Zn2+ in BaTiO3. Correlation among the grain size, tetragonality, and dielectric properties of the doped and undoped samples are also discussed.

Titanate Based Ceramic Dielectric Materials

Titanate Based Ceramic Dielectric Materials
Author: R. Saravanan
Publisher: Materials Research Forum LLC
Total Pages: 167
Release: 2018-02-25
Genre: Technology & Engineering
ISBN: 1945291559
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Barium titanate is one of the most important electronic materials; due to its high permittivity, low dielectric loss and high tunability. The environment friendly material is suitable for microphones and microwave device applications such as tunable capacitors, delay lines, filters, resonators and phase shifters. Doped titanates are extensively used for various electronic devices, such as transducers, piezoelectric actuators, passive memory storage devices, dynamic random access memory (DRAM), multilayer ceramic capacitors (MLCCs), positive temperature coefficient resistors (PTCR), optoelectronic devices and infrared sensors. The book presents research results concerning the electron density distribution in a number of doped barium titanate ceramic materials using experimental X-ray diffraction data, UV-visible spectrophotometry (UV-vis), scanning electron microscopy (SEM) and energy dispersive X-ray spectroscopy (EDS). The analysis of interatomic bonding and electron density distribution is important for predicting the properties of potentially important materials and has previously been lacking for the materials studied. Barium Titanate, Barium Titanate Doping, Dielectric Ceramics, Permittivity, Tunability, Transducers, Piezoelectric Actuators, Memory Storage Devices, Multilayer Ceramic Capacitors, Optoelectronic Devices, X-Ray Diffraction Data, UV-Visible Spectrophotometry, Energy Dispersive X-Ray Spectroscopy, Interatomic Bonding, Electron Density Distribution, Ceramic Property Predictions.

Ferroelectrics Literature Index

Ferroelectrics Literature Index
Author: T. F. Connolly
Publisher: Springer Science & Business Media
Total Pages: 713
Release: 2012-12-06
Genre: Science
ISBN: 1468462105
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Research on ferroelectricity and ferroelectric materials started in 1920 with the discovery by Valasek that the variation of spontaneous polarization in Rochelle salt with sign and magnitude of an applied electric field traced a complete and reproducible hysteresis loop. Activity in the field was sporadic until 1935, when Busch and co-workers announced the observation of similar behavior in potassium dihydrogen phosphate and related compounds. Progress thereafter continued at a modest level with the undertaking of some theoretical as well as further experimental studies. In 1944, von Hippel and co-workers discovered ferroelectricity in barium titanate. The technological importance of ceramic barium titanate and other perovskites led to an upsurge of interest, with many new ferroelectrics being identified in the following decade. By 1967, about 2000 papers on various aspects of ferroelectricity had been published. The bulk of this widely dispersed literature was concerned with the experimental measurement of dielectric, crystallographic, thermal, electromechanical, elastic, optical, and magnetic properties. A critical and excellently organized cpmpilation based on these data appeared in 1969 with the publica tion of Landolt-Bornstein, Volume 111/3. This superb tabulation gave instant access to the results in the literature on nearly 450 pure substances and solid solutions of ferroelectric and antiferroelectric materials. Continuing interest in ferroelectrics, spurred by the growing importance of electrooptic crystals, resulted in the publication of almost as many additional papers by the end of 1969 as had been surveyed in Landolt-Bornstein.

Synthesis and Characterization of Lanthanum Doped Barium Titanate for High-k Dielectric Materials

Synthesis and Characterization of Lanthanum Doped Barium Titanate for High-k Dielectric Materials
Author: Nur Farahin Abdul Hamid
Publisher:
Total Pages: 128
Release: 2016
Genre:
ISBN:
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There are three main parts of this research. First, the parent compositions of pure BaTiO3 were studied as a standard sample. The optimum temperatures for synthesis were determined based on pure BaTiO3 sample. Second, the solid solution limit for La-doped BaTiO3 were investigated. For the effect of doping, the analogue’s composition of Ba1-xLaxTiO3 and Ba1-xLaxTi1-x/4O3 are synthesized and studied ; next, the structural properties of lanthanum doped barium titanate was characterized by using X-ray Diffraction (XRD) and Rietveld Refinement analysis. The analysis followed by electrical characterization using impedance spectroscopy.