Ferroelectrics :: principles, structure and applications /
Ferroelectric physics is a theory on ferroelectric phase transition for explaining various related phenomena, which is different from dielectric physics. Ferroelectric materials are important functional materials for various applications such as NVRAMs, high energy density capacitors, actuators, MEM...
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| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
New York :
Nova Science Publishers, Inc.,
[2014]
|
| Schriftenreihe: | Physics research and technology.
|
| Schlagworte: | |
| Online-Zugang: | Volltext |
| Zusammenfassung: | Ferroelectric physics is a theory on ferroelectric phase transition for explaining various related phenomena, which is different from dielectric physics. Ferroelectric materials are important functional materials for various applications such as NVRAMs, high energy density capacitors, actuators, MEMs, sonar sensors, microphones and scanning electron microscopes (SEM). This book investigates the dielectric, ferroelectric and energy storage properties of barium zirconate-titanate/barium calcium-titanate (BZT-BCT) based ceramic for high energy density capacitors. It also compares the energy stora. |
| Beschreibung: | 1 online resource |
| Bibliographie: | Includes bibliographical references and index. |
| ISBN: | 9781594540615 1594540616 |
Internformat
MARC
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| 245 | 0 | 0 | |a Ferroelectrics : |b principles, structure and applications / |c Serena Merchant. |
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| 504 | |a Includes bibliographical references and index. | ||
| 588 | 0 | |a Online resource; title from EPUB title page (EBSCO, viewed November 11, 2014). | |
| 505 | 0 | |a FERROELECTRICS: PRINCIPLES, STRUCTURE AND APPLICATIONS; FERROELECTRICS: PRINCIPLES, STRUCTURE AND APPLICATIONS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; Chapter 1: Investigations on the Dielectric, Ferroelectric and Energy Storage Properties of Barium Zirconate-Titanate/Barium Calcium-Titanate Based Ceramic for High Energy Density Capacitors; Abstract; Introduction; History and Background; Energy-Storage and Dielectric Breakdown Performance in the Well-Studied Materials; Ceramic-Glass Composites for Energy Storage; Ceramic-Polymers Composites; for Energy Storage. | |
| 505 | 8 | |a Experimental SectionSynthesis of BaTiO3 (BTO) Ceramics; Synthesis of (Ba0.70Ca0.30)TiO3 (BCT) Ceramics; Synthesis of BaZr0.2Ti0.8O3 (BZT) Ceramics; Synthesis of (1-x)BZT-xBCT Ceramics; Materials Characterization; Experimental Observation; X-Ray Diffraction Studies; Raman Spectroscopic Studies; Raman Studies of BaTiO3 Ceramics; Raman Studies of Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Temperature Dependent Raman Studies: BCT Ceramics; Temperature Dependent Raman Studies: BZT Ceramics. | |
| 505 | 8 | |a Raman Studies of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) (x=0.10 to 0.9) CeramicsFerroelectric Studies; Ferroelectric Studies of BaTiO3 (BTO), Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Ferroelectric Studies of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) Ceramics; Energy Storage Density and; Energy Efficiency Studies; Dielectric Properties of BaTiO3 (BTO), Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Dielectric Properties of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) Ceramics; Conclusion; Acknowledgments; References. | |
| 505 | 8 | |a Chapter 2: Flexible Ferroelectric Polymer-Nanocrystal Composite Films for Large-Scale Capacitive Energy StorageAbstract; Introduction; History and Background; Nanotechnology; Nanomaterials; Energy Storage Capacitors; Capacitance of Parallel Plate Capacitors; Theoretical Prediction of Dielectric Properties in Polymer-Ceramic Nanocomposites; Standard Models for Effective Dielectric Constant Calculation; Series, Parallel (Wiener Bounds) and Cubic Mixing; Logarithmic Mixing Rule (Lichtenecker Model); Maxwell-Garnett and Bottcher Mixture Models; Power Law, Interphase Power Law. | |
| 505 | 8 | |a Calculating Constituent Dielectric Constants from Composite Data: Polyvinylidene Fluoride-Ba0.5Sr0.5TiO3 NanocompositesNanomaterials Processing; Wet-Chemical Processing for Ceramic Nanostructures; Polymers for Energy Storage; Polymer-Ceramic Nanocomposites; Synthesis of Polymer-Ceramic Films; Characterization; Results and Discussion; BaTiO3 Nanopowders from Commercial Source; Bulk BaTiO3 Produced Via Solid-State Synthesis; Ternary Bulk Ceramics via Solid-State Synthesis [155]; PVDF-BaTiO3 Films; PVDF-Ba1-XCaxTiO3 [X=0.3 0.05] Films; PVDF-BaZr1-XTixO3 [X=0.2 0.05] Films; Conclusion. | |
| 520 | |a Ferroelectric physics is a theory on ferroelectric phase transition for explaining various related phenomena, which is different from dielectric physics. Ferroelectric materials are important functional materials for various applications such as NVRAMs, high energy density capacitors, actuators, MEMs, sonar sensors, microphones and scanning electron microscopes (SEM). This book investigates the dielectric, ferroelectric and energy storage properties of barium zirconate-titanate/barium calcium-titanate (BZT-BCT) based ceramic for high energy density capacitors. It also compares the energy stora. | ||
| 650 | 0 | |a Ferroelectric crystals. |0 http://id.loc.gov/authorities/subjects/sh85047877 | |
| 650 | 6 | |a Cristaux ferroélectriques. | |
| 650 | 7 | |a SCIENCE |x Physics |x Electricity. |2 bisacsh | |
| 650 | 7 | |a SCIENCE |x Physics |x Electromagnetism. |2 bisacsh | |
| 650 | 7 | |a Ferroelectric crystals |2 fast | |
| 700 | 1 | |a Merchant, Serena, |e editor. | |
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| 776 | 0 | 8 | |i Erscheint auch als: |n Druck-Ausgabe |a Merchant, Serena. Ferroelectrics . |t Principles, Structure and Applications |
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Datensatz im Suchindex
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| contents | FERROELECTRICS: PRINCIPLES, STRUCTURE AND APPLICATIONS; FERROELECTRICS: PRINCIPLES, STRUCTURE AND APPLICATIONS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; Chapter 1: Investigations on the Dielectric, Ferroelectric and Energy Storage Properties of Barium Zirconate-Titanate/Barium Calcium-Titanate Based Ceramic for High Energy Density Capacitors; Abstract; Introduction; History and Background; Energy-Storage and Dielectric Breakdown Performance in the Well-Studied Materials; Ceramic-Glass Composites for Energy Storage; Ceramic-Polymers Composites; for Energy Storage. Experimental SectionSynthesis of BaTiO3 (BTO) Ceramics; Synthesis of (Ba0.70Ca0.30)TiO3 (BCT) Ceramics; Synthesis of BaZr0.2Ti0.8O3 (BZT) Ceramics; Synthesis of (1-x)BZT-xBCT Ceramics; Materials Characterization; Experimental Observation; X-Ray Diffraction Studies; Raman Spectroscopic Studies; Raman Studies of BaTiO3 Ceramics; Raman Studies of Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Temperature Dependent Raman Studies: BCT Ceramics; Temperature Dependent Raman Studies: BZT Ceramics. Raman Studies of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) (x=0.10 to 0.9) CeramicsFerroelectric Studies; Ferroelectric Studies of BaTiO3 (BTO), Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Ferroelectric Studies of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) Ceramics; Energy Storage Density and; Energy Efficiency Studies; Dielectric Properties of BaTiO3 (BTO), Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Dielectric Properties of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) Ceramics; Conclusion; Acknowledgments; References. Chapter 2: Flexible Ferroelectric Polymer-Nanocrystal Composite Films for Large-Scale Capacitive Energy StorageAbstract; Introduction; History and Background; Nanotechnology; Nanomaterials; Energy Storage Capacitors; Capacitance of Parallel Plate Capacitors; Theoretical Prediction of Dielectric Properties in Polymer-Ceramic Nanocomposites; Standard Models for Effective Dielectric Constant Calculation; Series, Parallel (Wiener Bounds) and Cubic Mixing; Logarithmic Mixing Rule (Lichtenecker Model); Maxwell-Garnett and Bottcher Mixture Models; Power Law, Interphase Power Law. Calculating Constituent Dielectric Constants from Composite Data: Polyvinylidene Fluoride-Ba0.5Sr0.5TiO3 NanocompositesNanomaterials Processing; Wet-Chemical Processing for Ceramic Nanostructures; Polymers for Energy Storage; Polymer-Ceramic Nanocomposites; Synthesis of Polymer-Ceramic Films; Characterization; Results and Discussion; BaTiO3 Nanopowders from Commercial Source; Bulk BaTiO3 Produced Via Solid-State Synthesis; Ternary Bulk Ceramics via Solid-State Synthesis [155]; PVDF-BaTiO3 Films; PVDF-Ba1-XCaxTiO3 [X=0.3 0.05] Films; PVDF-BaZr1-XTixO3 [X=0.2 0.05] Films; Conclusion. |
| ctrlnum | (OCoLC)894666811 |
| dewey-full | 537.2448 |
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| dewey-ones | 537 - Electricity and electronics |
| dewey-raw | 537.2448 |
| dewey-search | 537.2448 |
| dewey-sort | 3537.2448 |
| dewey-tens | 530 - Physics |
| discipline | Physik |
| format | Electronic eBook |
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| id | ZDB-4-EBA-ocn894666811 |
| illustrated | Not Illustrated |
| indexdate | 2024-11-27T13:26:18Z |
| institution | BVB |
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| series | Physics research and technology. |
| series2 | Physics research and technology |
| spelling | Ferroelectrics : principles, structure and applications / Serena Merchant. New York : Nova Science Publishers, Inc., [2014] ©2014 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Physics research and technology Includes bibliographical references and index. Online resource; title from EPUB title page (EBSCO, viewed November 11, 2014). FERROELECTRICS: PRINCIPLES, STRUCTURE AND APPLICATIONS; FERROELECTRICS: PRINCIPLES, STRUCTURE AND APPLICATIONS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; Chapter 1: Investigations on the Dielectric, Ferroelectric and Energy Storage Properties of Barium Zirconate-Titanate/Barium Calcium-Titanate Based Ceramic for High Energy Density Capacitors; Abstract; Introduction; History and Background; Energy-Storage and Dielectric Breakdown Performance in the Well-Studied Materials; Ceramic-Glass Composites for Energy Storage; Ceramic-Polymers Composites; for Energy Storage. Experimental SectionSynthesis of BaTiO3 (BTO) Ceramics; Synthesis of (Ba0.70Ca0.30)TiO3 (BCT) Ceramics; Synthesis of BaZr0.2Ti0.8O3 (BZT) Ceramics; Synthesis of (1-x)BZT-xBCT Ceramics; Materials Characterization; Experimental Observation; X-Ray Diffraction Studies; Raman Spectroscopic Studies; Raman Studies of BaTiO3 Ceramics; Raman Studies of Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Temperature Dependent Raman Studies: BCT Ceramics; Temperature Dependent Raman Studies: BZT Ceramics. Raman Studies of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) (x=0.10 to 0.9) CeramicsFerroelectric Studies; Ferroelectric Studies of BaTiO3 (BTO), Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Ferroelectric Studies of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) Ceramics; Energy Storage Density and; Energy Efficiency Studies; Dielectric Properties of BaTiO3 (BTO), Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Dielectric Properties of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) Ceramics; Conclusion; Acknowledgments; References. Chapter 2: Flexible Ferroelectric Polymer-Nanocrystal Composite Films for Large-Scale Capacitive Energy StorageAbstract; Introduction; History and Background; Nanotechnology; Nanomaterials; Energy Storage Capacitors; Capacitance of Parallel Plate Capacitors; Theoretical Prediction of Dielectric Properties in Polymer-Ceramic Nanocomposites; Standard Models for Effective Dielectric Constant Calculation; Series, Parallel (Wiener Bounds) and Cubic Mixing; Logarithmic Mixing Rule (Lichtenecker Model); Maxwell-Garnett and Bottcher Mixture Models; Power Law, Interphase Power Law. Calculating Constituent Dielectric Constants from Composite Data: Polyvinylidene Fluoride-Ba0.5Sr0.5TiO3 NanocompositesNanomaterials Processing; Wet-Chemical Processing for Ceramic Nanostructures; Polymers for Energy Storage; Polymer-Ceramic Nanocomposites; Synthesis of Polymer-Ceramic Films; Characterization; Results and Discussion; BaTiO3 Nanopowders from Commercial Source; Bulk BaTiO3 Produced Via Solid-State Synthesis; Ternary Bulk Ceramics via Solid-State Synthesis [155]; PVDF-BaTiO3 Films; PVDF-Ba1-XCaxTiO3 [X=0.3 0.05] Films; PVDF-BaZr1-XTixO3 [X=0.2 0.05] Films; Conclusion. Ferroelectric physics is a theory on ferroelectric phase transition for explaining various related phenomena, which is different from dielectric physics. Ferroelectric materials are important functional materials for various applications such as NVRAMs, high energy density capacitors, actuators, MEMs, sonar sensors, microphones and scanning electron microscopes (SEM). This book investigates the dielectric, ferroelectric and energy storage properties of barium zirconate-titanate/barium calcium-titanate (BZT-BCT) based ceramic for high energy density capacitors. It also compares the energy stora. Ferroelectric crystals. http://id.loc.gov/authorities/subjects/sh85047877 Cristaux ferroélectriques. SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Ferroelectric crystals fast Merchant, Serena, editor. has work: Ferroelectrics (Text) https://id.oclc.org/worldcat/entity/E39PCXPxmVvqYKyhGdYH9wxKv3 https://id.oclc.org/worldcat/ontology/hasWork Erscheint auch als: Druck-Ausgabe Merchant, Serena. Ferroelectrics . Principles, Structure and Applications Physics research and technology. http://id.loc.gov/authorities/names/no2011035503 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=886300 Volltext |
| spellingShingle | Ferroelectrics : principles, structure and applications / Physics research and technology. FERROELECTRICS: PRINCIPLES, STRUCTURE AND APPLICATIONS; FERROELECTRICS: PRINCIPLES, STRUCTURE AND APPLICATIONS; Library of Congress Cataloging-in-Publication Data; Contents; Preface; Chapter 1: Investigations on the Dielectric, Ferroelectric and Energy Storage Properties of Barium Zirconate-Titanate/Barium Calcium-Titanate Based Ceramic for High Energy Density Capacitors; Abstract; Introduction; History and Background; Energy-Storage and Dielectric Breakdown Performance in the Well-Studied Materials; Ceramic-Glass Composites for Energy Storage; Ceramic-Polymers Composites; for Energy Storage. Experimental SectionSynthesis of BaTiO3 (BTO) Ceramics; Synthesis of (Ba0.70Ca0.30)TiO3 (BCT) Ceramics; Synthesis of BaZr0.2Ti0.8O3 (BZT) Ceramics; Synthesis of (1-x)BZT-xBCT Ceramics; Materials Characterization; Experimental Observation; X-Ray Diffraction Studies; Raman Spectroscopic Studies; Raman Studies of BaTiO3 Ceramics; Raman Studies of Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Temperature Dependent Raman Studies: BCT Ceramics; Temperature Dependent Raman Studies: BZT Ceramics. Raman Studies of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) (x=0.10 to 0.9) CeramicsFerroelectric Studies; Ferroelectric Studies of BaTiO3 (BTO), Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Ferroelectric Studies of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) Ceramics; Energy Storage Density and; Energy Efficiency Studies; Dielectric Properties of BaTiO3 (BTO), Ba0.70Ca0.30TiO3-(BCT) and Ba(Zr0.20Ti0.80)O3 (BZT) Ceramics; Dielectric Properties of (1-x)Ba(Zr0.20Ti0.80)O3-xBa0.70Ca0.30TiO3-(BZT-BCT) Ceramics; Conclusion; Acknowledgments; References. Chapter 2: Flexible Ferroelectric Polymer-Nanocrystal Composite Films for Large-Scale Capacitive Energy StorageAbstract; Introduction; History and Background; Nanotechnology; Nanomaterials; Energy Storage Capacitors; Capacitance of Parallel Plate Capacitors; Theoretical Prediction of Dielectric Properties in Polymer-Ceramic Nanocomposites; Standard Models for Effective Dielectric Constant Calculation; Series, Parallel (Wiener Bounds) and Cubic Mixing; Logarithmic Mixing Rule (Lichtenecker Model); Maxwell-Garnett and Bottcher Mixture Models; Power Law, Interphase Power Law. Calculating Constituent Dielectric Constants from Composite Data: Polyvinylidene Fluoride-Ba0.5Sr0.5TiO3 NanocompositesNanomaterials Processing; Wet-Chemical Processing for Ceramic Nanostructures; Polymers for Energy Storage; Polymer-Ceramic Nanocomposites; Synthesis of Polymer-Ceramic Films; Characterization; Results and Discussion; BaTiO3 Nanopowders from Commercial Source; Bulk BaTiO3 Produced Via Solid-State Synthesis; Ternary Bulk Ceramics via Solid-State Synthesis [155]; PVDF-BaTiO3 Films; PVDF-Ba1-XCaxTiO3 [X=0.3 0.05] Films; PVDF-BaZr1-XTixO3 [X=0.2 0.05] Films; Conclusion. Ferroelectric crystals. http://id.loc.gov/authorities/subjects/sh85047877 Cristaux ferroélectriques. SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Ferroelectric crystals fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85047877 |
| title | Ferroelectrics : principles, structure and applications / |
| title_auth | Ferroelectrics : principles, structure and applications / |
| title_exact_search | Ferroelectrics : principles, structure and applications / |
| title_full | Ferroelectrics : principles, structure and applications / Serena Merchant. |
| title_fullStr | Ferroelectrics : principles, structure and applications / Serena Merchant. |
| title_full_unstemmed | Ferroelectrics : principles, structure and applications / Serena Merchant. |
| title_short | Ferroelectrics : |
| title_sort | ferroelectrics principles structure and applications |
| title_sub | principles, structure and applications / |
| topic | Ferroelectric crystals. http://id.loc.gov/authorities/subjects/sh85047877 Cristaux ferroélectriques. SCIENCE Physics Electricity. bisacsh SCIENCE Physics Electromagnetism. bisacsh Ferroelectric crystals fast |
| topic_facet | Ferroelectric crystals. Cristaux ferroélectriques. SCIENCE Physics Electricity. SCIENCE Physics Electromagnetism. Ferroelectric crystals |
| url | https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=886300 |
| work_keys_str_mv | AT merchantserena ferroelectricsprinciplesstructureandapplications |