Relevant bibliographies by topics / Bismuth titanate

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Bismuth titanate'

Author: Grafiati
Published: 4 June 2021
Last updated: 7 February 2022

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Journal articles on the topic "Bismuth titanate"

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Lazarević, Z. Ž., N. Ž. Romčević, M. J. Romčević, and B. D. Stojanović. "Raman Spectra of Bismuth Titanate Ceramics." Materials Science Forum 555 (September 2007): 243–47. http://dx.doi.org/10.4028/www.scientific.net/msf.555.243.

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Bismuth titanate is a typical layer-structured ferroelectric material and belongs to the Aurivilius type-structure compounds family. A bismuth titanate ceramic material could be obtained by mechanically activated synthesis after thermal treatment at a temperature slightly lower than in conventional solid-state reaction. In this case bismuth titanate was prepared through mechanochemical synthesis starting from bismuth oxide and titanium oxide in rutile form. The mixture of oxides was milled in a zirconium oxide jar in a planetary ball-mill in intervals from 1 to 12 hours. The ratio of powders to zirconium oxide balls during milling was 1:20. Bismuth titanate was formed after 1 h. The Raman spectroscopy analysis was performed.
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Lazarevic, Z., B. D. Stojanovic, and J. A. Varela. "An approach to analyzing synthesis, structure and properties of bismuth titanate ceramics." Science of Sintering 37, no. 3 (2005): 199–216. http://dx.doi.org/10.2298/sos0503199l.

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The family of bismuth titanate, Bi4Ti3O12 (BIT) layered-structured ferroelectrics materials is attractive from the viewpoint of their application as electronic materials such as dielectrics, piezoelectrics and pyroelectrics, because they are characterized by good stability of piezoelectric properties, a high Curie temperature and a good resistance vs temperature. Bismuth titanate (Bi4Ti3O12) powders can be prepared using different methods, depending if the creation will be film coating or ceramics. The structure and properties of bismuth titanate materials show a significance dependence on the applied synthesis method. In this review paper, we made an attempt to give an approach to analyzing the structure, synthesis methods and properties of bismuth titanate ferroelectrics materials. .
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Wang, En Guo, and Mei Xiang Huo. "The Photocatalytic Behavior of Bismuth Titanate Powders Prepared by the Citric-Combustion Method." Advanced Materials Research 726-731 (August 2013): 483–86. http://dx.doi.org/10.4028/www.scientific.net/amr.726-731.483.

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Bismuth titanate powders have been prepared by the citric-combustion method using bismuth nitrate and tetrabutyl titanate as the starting materials, and the effect of sintering temperature and the ratio of bismuth to titanium on their structure and photocatalytic activity was studied. The powders were characterized by X-ray diffractometry (XRD) and scanning electron microscopy (SEM). The photocatalytic properties of the samples were probed by using the methyl blue as simulated contaminants. The results showed that bismuth titanate powder prepared at 873K has the best photocatalytic activity.
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Inaba, Katsuya, Ichiro Fujii, Kouichi Nakashima, Hiroshi Hayashi, Yuichi Yamamoto, Yoshihiro Kuroiwa, and Satoshi Wada. "Preparation of Grain-Oriented Ceramics with Bismuth Potassium Titanate-Barium Titanate and their Piezoelectric Properties." Key Engineering Materials 582 (September 2013): 80–83. http://dx.doi.org/10.4028/www.scientific.net/kem.582.80.

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Bismuth potassium titanate ((Bi1/2K1/2)TiO3: BKT) powder were prepared using bismuth oxide (Bi2O3), potassium hydrogen carbonate (KHCO3) and titanium oxide (TiO2) raw materials. Barium titanate (BaTiO3: BT) platelike particles oriented along [110] direction were used as template particles. Barium titanate-bismuth potassium titanate (BT-BKT) ceramics had a tetragonal phase at -100 °C. The main composition was fixed to BKT 30 molar% because the Curie temperature (TC) was well above 200 °C at BKT 30 molar%. The orientation of [110]-oriented BT-BKT ceramics (BKT 30 molar%) was 54.6 %.
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Pookmanee, Pusit, and Sukon Phanichphant. "Characterization of Bismuth Titanate Powders." Advanced Materials Research 26-28 (October 2007): 247–50. http://dx.doi.org/10.4028/www.scientific.net/amr.26-28.247.

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Bismuth titanate was prepared from the sol-gel method. Bismuth nitrate and titanium isopropoxide were used as the starting precursors with the mole ratio of Bi:Ti as 4:3. Solutions were mixed in acetic acid medium and heat at 80 oC for 2h. Sols were obtained after adjusting the final of pH of solution to 2. Gels were formed after drying at 100 oC for 24h. The milled powders were calcined at 500-800 oC for 2h. The phase formation was investigated by X-ray diffractometry (XRD). Single phase with orthorhombic structure of bismuth titanate was obtained after calcination at 700 oC for 2h. The morphology and chemical composition were studied by scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS). The average particle size was 0.50- 1.5 μm with the irregular shape. The elemental composition of bismuth, titanium and oxygen showed the characteristic X-ray energy values.
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Yong, Shih Ween, Hartini Khairi Osman, Pei Wen Koh, and Siew Ling Lee. "Temperature Effect on Phase Formation of Nanocrystalline Bismuth Titanate Synthesized via Hot Injection Method." Advanced Materials Research 287-290 (July 2011): 257–60. http://dx.doi.org/10.4028/www.scientific.net/amr.287-290.257.

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Nanocrystalline bismuth titanate materials were synthesized via hot injection method for the first time. Bismuth nitrate and titanium butoxide were used as precursors of Bi and Ti, respectively. The synthesis method was modified to use aqueous solution as the solvent instead of non coordinating solvent which enable production of nanosized compounds at lower reaction temperature. During the synthesis process, titanium precursor was injected into mixture of bismuth nitrate and oleic acid at 130°C, leading to a rapid burst nucleation and followed by nuclei growth at room temperature. The synthesized compound was heated at various temperatures. XRD results showed formation of cubic phase bismuth titanate compound with space group of Fm3m at room temperature after the reaction. Presence of cubic phase bismuth titanate compound with space group of I23 was observed as secondary phase at 300°C. Meanwhile, a single phase cubic form, space group I23 was obtained for material synthesized at 600°C. FESEM images indicated nano particles of bismuth titanate materials were produced at lower temperatures. However, sintering effect was observed in material heated at 600°C, resulting micro-sized particles.
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Thongtha, Atthakorn, and Theerachai Bongkarn. "Combustion technique synthesis of lead-free piezoelectric bismuth sodium titanate-bismuth potassium titanate–barium titanate ceramics." Integrated Ferroelectrics 175, no. 1 (August 12, 2016): 102–10. http://dx.doi.org/10.1080/10584587.2016.1202703.

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Lazarević, Z. Ž., B. D. Stojanović, and José Arana Varela. "Mechanochemical Synthesis of Bi4Ti3O12." Materials Science Forum 518 (July 2006): 125–30. http://dx.doi.org/10.4028/www.scientific.net/msf.518.125.

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Our efforts were directed to the preparation of bismuth titanate – Bi4Ti3O12 (BIT) by mechanically assisted synthesis. The mechanical activation was applied to prepare bismuth titanate, Bi4Ti3O12, from bismuth oxide, Bi2O3, and titanium oxide, TiO2 (in an anatase crystal form). Mechanochemical synthesis was performed in a planetary ball mill in air atmosphere. Bismuth titanate ceramics was obtained by sintering at 1000 oC. The formation of Bi4Ti3O12 in the sintered samples was confirmed by X-ray diffraction analysis. Scanning electron microscopy, SEM, was used to study the particle size and powder morphology. The obtained results indicate that Bi4Ti3O12 from the powder synthesized by high-energy ball milling exhibits good sinterability, showing advantage of the mechanochemical process over conventional solid-state reaction.
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Muanghlua, Rangson, Surasak Niemcharoen, Wanwilai C. Vittayakorn, Nattapong Tungsitvisetkul, Pimjan Chinwaro, Anucha Ruangphanit, Nopsiri Chaiyo, and Naratip Vittayakorn. "Preparation and Properties of Lead Free Bismuth Sodium Titanate−Bismuth Zinc Titanate Ceramics." Ferroelectrics 383, no. 1 (June 30, 2009): 1–7. http://dx.doi.org/10.1080/00150190902873303.

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Su, Wei-Fang, Jiann-Fong Lee, Ming-Yao Chen, and Ron-Ming Ho. "Bismuth titanate nanoparticles dispersed polyacrylates." Journal of Materials Research 19, no. 8 (August 2004): 2343–48. http://dx.doi.org/10.1557/jmr.2004.0312.

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We successfully dispersed amorphous bismuth titanate nanoparticles (<50 nm)in situ in poly-hydroxy ethyl methacrylate via a sol-gel process. Since less than 20% of the polymer composition is bismuth titanate by weight, the material exhibits high refractive indices (>1.6) and good optical transparency (>90% transmittance from 530 to 800 nm). Furthermore, this highly cross-linked material has an improved thermal stability and a lower coefficient of thermal expansion than that of neat polymers. The material also displays a high dielectric constant (>10) without ferroelectricity. Thus the material has potential applications in optical lenses, optical waveguides, and capacitors.
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Dissertations / Theses on the topic "Bismuth titanate"

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Sanson, Alessandra. "Modified bismuth titanate piezoelectric ceramics." Thesis, Cranfield University, 2003. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.401625.

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Duan, Runrun. "High Curie Temperature Bismuth- and Indium- Substituted Lead Titanate." Thesis, Available online, Georgia Institute of Technology, 2004:, 2004. http://etd.gatech.edu/theses/available/etd-06082004-124159/unrestricted/Duan%5FRunrun%5F200407%5Fmast.pdf.

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Thesis (M.S.)--School of Materials Science and Engineering, Georgia Institute of Technology, 2005. Directed by Robert Snyder.
Shrout, Thomas, Committee Member ; Snyder, Robert, Committee Member ; Speyer, Robert, Committee Chair. Includes bibliographical references.
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Turner, Stuart Lee. "The structure of bismuth ferrite - lead titanate (BiFeO3 - PbTiO3)." Thesis, University of Leeds, 2008. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.507885.

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Palan, Rohit Chandulal. "Pyroelectric Properties of Ferroelectric Lanthanum Bismuth Titanate Thin Films." University of Cincinnati / OhioLINK, 2001. http://rave.ohiolink.edu/etdc/view?acc_num=ucin1000746504.

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Burnett, Timothy Laurence. "Growth and charaterisation of bismuth ferrite lead titanate single crystals." Thesis, University of Leeds, 2008. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.487709.

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Bismuth ferrite lead titanate (BFPT) shows potential in high temperature piezoelectric and ferroelectric applications as well in the emerging field of multiferroic research. Single crystals of (BFPT) have been grown for the first time using the flux growth method.
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Soares-Carvalho, Fernanda. "Elaboration de couches minces ferroélectriques de titanate de bismuth Bi4Ti3O12." Limoges, 1996. http://www.theses.fr/1996LIMOA001.

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Stevenson, Timothy James. "Magnetic and electric properties of bismuth ferrite lead titanate ceramics." Thesis, University of Leeds, 2010. http://etheses.whiterose.ac.uk/1371/.

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Solid solutions of multiferroic BiFeO3 doped with ferroelectric PbTiO3 (BFPT) can be prepared by conventional mixed oxide processing to produce a range of polycrystalline ceramics ranging throughout the xBiFeO3 - (1-x)PbTiO3 series. Sintered ceramics are shown to exhibit mixed tetragonal (P4mm) and rhombohedral (R3c) phase perovskite distortions from 0.4 ≤ x < 0.75, where at x ~ 0.75 a morphotropic phase boundary exists and compositions x > 0.75 are entirely rhombohedral. From extensive use of neutron diffraction experiments, the phase coexistence is attributed to compensation for the internal strain induced upon cooling through the ferroelectric Curie point from cubic, to the distorted tetragonal perovskite phase (ܿ/ܽ = 1.17). This drives a further partial transformation to the (~4 %) lower volume rhombohedral phase as a relief mechanism. Increasing the sinter temperature and fast cooling (> 900 °C/hr) sees the monolithic samples x ≤ 0.7 disintegrate to various levels of particulate size, when a critical grain size is exceeded (7 μm), which in turn is inversely proportional to the grain boundary fracture energy. The magnetic properties studied using high resolution powder diffractometry of these two states present G-type antiferromagnetism (AFM) in both the rhombohedral and tetragonal phases; but with Tn above ambient temperature for R3c, and below for P4mm for all compositions except x = 0.3. Compositions below this PbTiO3 rich solution are never observed to support antiferromagnetic order, as the dilution of magnetic iron ions exceeds the percolation threshold via substitution with titanium ions. The rhombohedral phase is shown to exhibit an incommensurate, modulated magnetic order, with a propagation vector perpendicular to the magnetization vector, which decreases in periodicity with increasing bismuth ferrite, from 840 Å for x = 0.75. At room temperature, transforming the paramagnetic tetragonally distorted powder to a G-type AFM rhombohedral phase, is observed with the application of hydrostatic pressure. Evident from neutron experiments, using the Pearl instrument at ISIS, full transformation can be achieved with moderate pressures of 0.77 GPa, effectively ‘switching’ on the magnetic order. The monolithic samples were used at 250 K to observe the changes in simultaneous structural and G-type antiferromagnetic properties as a function of applied electric field (0 to 10 MVm-1) for the most piezoelectrically active samples, around the MPB composition (x = 0.7), using neutron diffraction at the Berlin neutron scattering centre; instrument E2. An observed increase in rhombohedral phase occurs with the application of electric field from peak analysis, which relates to a proportional increase in observed antiferromagnetic intensity (5 %). These two behaviours are proposed to be linked by the internal strain developed within the system, from increased polarisation forcing a partial phase transformation from the tetragonal to the rhombohedral phase which can support the antiferromagnetic order at room temperature.
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Wang, Naigang. "Multiferroic Bismuth Ferrite-Lead Titanate and Iron-Gallium Crystalline Solutions: Structure-Property Investigations." Thesis, Virginia Tech, 2005. http://hdl.handle.net/10919/33854.

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Recently, multiferroics-defined as materials with coexistence of at least two of the ferroelectric, ferroelastic and ferromagnetic effects-have attracted enormous research activities. In this thesis, the structure and properties of multiferrioic BiFeO3-x%PbTiO3 and Fe-x%Ga crystalline solutions were investigated. First, the results show that modified BiFeO3-PbTiO3 based ceramics have significantly enhanced multiferroic properties, relative to BiFeO3 single crystals. The data reveal: (i) a dramatic increase in the induced polarization; and (ii) the establishment of a remnant magnetization by a breaking of the translational invariance of a long-period cycloidal spin structure, via substituent effects. In addition, temperature dependent magnetic permeability investigations of BiFeO3-xPbTiO3 crystalline solutions have shown that aliovalent La substitution results in a significant increase in the permeability. Second, room temperature high-resolution neutron and x-ray diffraction studies have been performed on Fe-x%Ga crystals for 12Master of Science
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Merka, Oliver [Verfasser]. "Yttrium bismuth titanate pyrochlore mixed oxides for photocatalytic hydrogen production / Oliver Merka." Hannover : Technische Informationsbibliothek und Universitätsbibliothek Hannover (TIB), 2012. http://d-nb.info/1029589895/34.

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Nahime, Bacus de Oliveira [UNESP]. "Síntese e caracterização estrutural de filmes finos Bi4Ti3O12." Universidade Estadual Paulista (UNESP), 2007. http://hdl.handle.net/11449/92018.

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Made available in DSpace on 2014-06-11T19:25:34Z (GMT). No. of bitstreams: 0 Previous issue date: 2007-04-27Bitstream added on 2014-06-13T20:33:16Z : No. of bitstreams: 1 nahime_bo_me_ilha.pdf: 1294512 bytes, checksum: ffc3048caf6b741e23555fbf3b2fbd5e (MD5)
Na última década, cresceu consideravelmente o interesse pela produção de filmes finos ferroelétricos, em virtude do grande potencial que estes materiais apresentam para a produção de dispositivos de memória ferroelétrica não-voláteis. O titanato de bismuto, Bi4Ti3O12 (BIT) é um ferroelétrico com estruturas de camadas de bismuto, conhecido por apresentar elevada temperatura de Curie (Tc), próxima de 650ºC, e excelentes propriedades de fadiga ferroelétrica. Este trabalho teve como objetivo a síntese de filmes finos de BIT e o estudo das suas propriedades estruturais. Os filmes estudados foram preparados a partir de um método químico, similar ao método Pechini, e depositados sobre substratos de Si(100). Os filmes foram cristalizados em forno convencional entre 500°C e 700°C, por períodos entre 1 e 12 horas. As técnicas de difração de raios-X (DRX) e Espectroscopia no Infravermelho por Transformada Fourier (FT-IR), foram usadas como ferramentas de investigação. Para os filmes tratados termicamente entre 400°C e 700°C, observouse a presença das fases cristalinas Bi4Ti3O12 e Bi2Ti2O7 (paraelétrica). Para os filmes tratados termicamente a temperaturas mais elevadas (700°C) e tempos mais prolongados (10 horas), observou-se uma tendência de desaparecer a fase Bi2Ti2O17. Aliados a estes resultados, o aumento da intensidade do pico (117) do BIT e o decréscimo da sua respectiva largura a meia altura, para os filmes cristalizados a 700°C, sugerem que nestas condições são obtidos filmes mais bem cristalizados. Um estudo usando a técnica FT-IR demonstrou a presença de uma banda de absorção claramente evidenciada em torno de 700 cm-1. Esta banda está associada ao modo stretching da ligação Ti-O e torna-se consideravelmente mais estreita quando a resina polimérica precursora foi tratada termicamente a temperaturas mais elevadas. Este fato também comprovou que temperaturas em torno de 700°C são favoráveis para a...
In the last decade the interest for the production of ferroelectric thin films increased considerably because of the great potential that these materials present for the production of devices of no-volatile ferroelectric memory. The bismuth titanate, Bi4Ti3O12 (BIT), is a ferroelectric with structures of bismuth layers, known by presenting high temperature of Curie (Tc), close of 650ºC, and excellent properties of ferroelectric fatigue. This work had as objectives the synthesis of thin films of BIT and the study of their structural properties. The studied films were prepared starting from a chemical method, similar to the Pechini method, and deposited on substrata of Si(100). The films were crystallized in conventional oven between 500°C and 700°C for periods between 1 and 12 hours. The techniques of X-ray diffraction (DRX) and Fourier Transform Infrared (FT-IR) Spectroscopy were used as investigation tools. It was observed the presence of the crystalline phases Bi4Ti3O12 and Bi2Ti2O7 (paraelectric) for the films termically treated between 400°C and 700°C. To the films termically treated to higher temperatures (700°C) and more lingering times (10 hours) a tendency of the phase Bi2Ti2O7 to disappear was observed. Allied to these results, the increase of the intensity of the pick (117) of the BIT and the decrease of its respective width to half height, for the crystallized films to 700°C suggests that, in these conditions, better crystallized films are obtained. A study using the FT-IR technique demonstrated the presence of an absorption band clearly evidenced around 700 cm-1. This band is associated to the stretching way of the Ti-O connection and becomes considerably narrower when the precursory polimeric resin was termically treated to higher temperatures. This fact also proved that temperatures around 700°C are favorable for obtaining a mono-crystalline phase of Bi4Ti3O12.
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Books on the topic "Bismuth titanate"

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Lisińska-Czekaj, Agata. Wielofunkcyjne materiały ceramiczne na osnowie tytanianu bizmutu. Katowice: Uniwersytet Śląski, 2012.

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Book chapters on the topic "Bismuth titanate"

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Galasso, Francis S., and Michael Kestigian. "Bismuth Titanate, Bi4 Ti3 O12." In Inorganic Syntheses, 144–45. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2007. http://dx.doi.org/10.1002/9780470132456.ch29.

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Galasso, Francis S., and Michael Kestigan. "Bismuth Titanate, Bi4 Ti3 O12." In Inorganic Syntheses, 112–13. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2007. http://dx.doi.org/10.1002/9780470132616.ch24.

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Takenaka, Tadashi, and Hajime Nagata. "Sodium Bismuth Titanate-Based Ceramics." In Lead-Free Piezoelectrics, 255–90. New York, NY: Springer New York, 2011. http://dx.doi.org/10.1007/978-1-4419-9598-8_8.

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Pookmanee, Pusit, and Sukon Phanichphant. "Characterization of Bismuth Titanate Powders." In Advanced Materials Research, 247–50. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-463-4.247.

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Miao, Hong Yan, Min Dong, Guo Qiang Tan, Yong Ping Pu, and Zheng Qiu Sun. "Hydrothermal Preparation of Bismuth Titanate Nanopowders." In Key Engineering Materials, 161–64. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-410-3.161.

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Lazarević, Z. Ž., N. Ž. Romčević, M. J. Romčević, and B. D. Stojanović. "Raman Spectra of Bismuth Titanate Ceramics." In Materials Science Forum, 243–47. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-441-3.243.

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Nagata, Hajime, Takashi Shinya, Yuji Hiruma, Tadashi Takenaka, Isao Sakaguchi, and Hajime Haneda. "Piezoelectric Properties of Bismuth Sodium Titanate Ceramics." In Ceramic Transactions Series, 213–21. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118408186.ch20.

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Slamovich, E. B., H. Xu, S. Mallick, H. Y. Li, K. J. Bowman, and W. F. Shelley. "Hydrothermal Synthesis and Properties of Sodium-Doped Bismuth Titanate Powders." In Ceramic Transactions Series, 1–12. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118408186.ch1.

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Makiya, A., D. Kusano, S. Tanaka, N. Uchida, K. Uematsu, K. Kitazawa, T. Kimura, and Y. Doshida. "Particle Oriented Bismuth Titanate Ceramics Prepared in a Magnetic Field." In Ceramic Transactions Series, 163–71. Hoboken, NJ, USA: John Wiley & Sons, Inc., 2012. http://dx.doi.org/10.1002/9781118406038.ch20.

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Kitanaka, Yuuki, Yuji Noguchi, and Masaru Miyayama. "Domain Dynamics of C-Axis Polarization in Bismuth Titanate Crystals." In Electroceramics in Japan X, 69–72. Stafa: Trans Tech Publications Ltd., 2007. http://dx.doi.org/10.4028/0-87849-449-9.69.

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Conference papers on the topic "Bismuth titanate"

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Gupta, Pallavi, Balram, and Dwijendra P. Singh. "Synthesis and characterization of ferroelectric bismuth titanate (Bi4Ti3O12)." In SOLID STATE PHYSICS: Proceedings of the 58th DAE Solid State Physics Symposium 2013. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4872676.

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Deepak, Nitin, Panfeng Zhang, Lynette Keeney, Martyn E. Pemble, and Roger W. Whatmore. "Atomic vapor deposition of bismuth titanate thin films." In 2012 Joint 21st IEEE ISAF / 11th IEEE ECAPD / IEEE PFM (ISAF/ECAPD/PFM). IEEE, 2012. http://dx.doi.org/10.1109/isaf.2012.6297829.

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Sharanappa, Nagbasavanna, Shivanand Madolappa, Raghavendra Sagar, and R. L. Raibagkar. "PTCR-NTCR composite behavior of bismuth titanate ceramics." In PROCEEDING OF INTERNATIONAL CONFERENCE ON RECENT TRENDS IN APPLIED PHYSICS AND MATERIAL SCIENCE: RAM 2013. AIP, 2013. http://dx.doi.org/10.1063/1.4810350.

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Kaswan, Kavita, Ashish Agarwal, Sujata Sanghi, and Jogender Singh. "Improved multiferroic properties of bismuth ferrite and sodium bismuth titanate based multiferroic composites." In DAE SOLID STATE PHYSICS SYMPOSIUM 2018. AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5113332.

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Palizdar, Meghdad, Dhiman Mallick, Tuhin Maity, Saibal Roy, Tim P. Comyn, Tim J. Stevenson, Chris M. Fancher, et al. "Texture analysis of thick bismuth ferrite lead titanate layers." In 2014 15th International Conference on Electronic Packaging Technology (ICEPT). IEEE, 2014. http://dx.doi.org/10.1109/icept.2014.6918750.

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Saw, C. K., and I. L. Kalnin. "Diffraction Studies of Ferroelectric Lead Titanate Bismuth Ferrite Ceramic." In Sixth IEEE International Symposium on Applications of Ferroelectrics. IEEE, 1986. http://dx.doi.org/10.1109/isaf.1986.201175.

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Ghosh, P. K., A. S. Bhalla, and L. E. Cross. "Dielectric Properties of RF Sputered Bismuth Titanate Thin Films." In Sixth IEEE International Symposium on Applications of Ferroelectrics. IEEE, 1986. http://dx.doi.org/10.1109/isaf.1986.201214.

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Nayak, P., T. Badapanda, S. Anwar, and S. Panigrahi. "Dielectric behavior of barium modified strontium bismuth titanate ceramic." In SOLID STATE PHYSICS: Proceedings of the 58th DAE Solid State Physics Symposium 2013. AIP Publishing LLC, 2014. http://dx.doi.org/10.1063/1.4872496.

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Palizdar, Meghdad, Dhiman Mallick, Tuhin Maity, Saibal Roy, Tim P. Comyn, Tim J. Stevenson, Chris M. Fancher, et al. "Texture analysis of thick bismuth ferrite lead titanate layers." In 2014 Joint IEEE International Symposium on the Applications of Ferroelectrics, International Workshop on Acoustic Transduction Materials and Devices & Workshop on Piezoresponse Force Microscopy (ISAF/IWATMD/PFM). IEEE, 2014. http://dx.doi.org/10.1109/isaf.2014.6922999.

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Bell, Andrew J., Timothy P. Comyn, Mikael A. Khan, Timothy Stevenson, and Timothy Burnett. "Structure-property relations in multifunctional bismuth ferrite - lead titanate." In 2008 17th IEEE International Symposium on the Applications of Ferroelectrics (ISAF). IEEE, 2008. http://dx.doi.org/10.1109/isaf.2008.4693781.

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