| Description |
1 online resource. |
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text txt rdacontent |
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computer c rdamedia |
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online resource cr rdacarrier |
| Series |
Elsevier Series in Advanced Ceramic Materials
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| Bibliography |
Includes bibliographical references and index. |
| Contents |
Intro -- Perovskite Ceramics: Recent Advances and Emerging Applications -- Copyright -- Dedication -- Contents -- Contributors -- Preface -- Part One: Advanced research -- Chapter 1: Introduction to perovskites -- 1. What is a perovskite? -- 2. Symmetry matters: From the bumped journey that started with the pursuit of the appropriate symmetry of the mineral per ... -- 3. An incredible structural versatility that can lead us to the next generation of solid-state refrigerators: Hybrid pero ... |
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4. Chemical flexibility: Toward the next generation of electrocatalyzers proposed by modern machine learning tools -- 5. Never abandon your perovskite -- others might find it useful -- 6. Conclusions -- References -- Chapter 2: Methods for the synthesis of ceramic materials with perovskite structure -- 1. Introduction -- 2. Synthesis and processing of perovskite ceramics -- 2.1. Solid-state reaction method -- 2.2. Coprecipitation method -- 2.3. Sol-gel process and its variants -- 2.4. Hydrothermal and Solvothermal methods -- 2.5. Microwave-assisted methods -- 2.6. Chemical vapor deposition (CVD) |
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2.7. Electron-beam physical vapor deposition (EBPVD) -- 2.8. Molecular beam epitaxy (MBE) -- 2.9. RF magnetron sputtering -- 2.10. Pulsed laser deposition (PLD) -- 3. Conclusions -- References -- Chapter 3: Antiferrodistortive phase transition in doped strontium titanate ceramics: The role of the perovskite lattice v -- 1. Introduction -- 2. Phase transition of undoped ST ceramics -- 3. Effect of isovalent doping on the phase transition -- 4. Acceptor doping/oxygen vacancy effect -- 5. Donor doping/strontium vacancy effect -- 6. Conclusions -- References |
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Chapter 4: Polaronic effects in perovskite oxides -- 1. Introduction -- 2. Response of Frohlich and Holstein polarons to external fields -- 2.1. Probing the electronic system -- 2.1.1. Electrical and optical measurements: Optical conductivity and light absorption -- 2.1.2. Optical methods: Absorption -- 2.1.3. X-ray spectroscopies -- 3. Electron-phonon interaction (EPI) in transition metal oxides -- 3.1. EPI in manganites -- 3.2. EPI in titanates -- 4. Outlook and perspectives -- Acknowledgments -- References -- Further reading |
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Chapter 5: Compensation and screening of ferroelectricity in perovskite oxides -- 1. Introduction -- 2. Proper ferroelectrics -- 2.1. Interfacing with metals or semiconductors -- 2.2. Formation of charged defects -- 2.3. Adsorption of charged species -- 3. Improper ferroelectrics -- 3.1. Multiferroics -- 3.2. Type III multiferroics: Domains and domain walls -- 4. Rashba ferroelectrics -- 5. Conclusions and outlook -- Acknowledgments -- References -- Chapter 6: Crystal structures of copper oxide-based perovskite compounds -- 1. Introduction -- 2. Atomic observation by HREM |
| Note |
3. Crystal structures of Tl-based copper oxides |
| Summary |
Perovskite-based ceramics are a significant class of innovative materials with fascinating physical properties, which are now receiving intensive research attention in condensed matter physics and in the area of practical device applications. Perovskite Ceramics provides a state-of-the-art review on the latest advances in perovskite-based ceramic materials, as well as the development of devices from these materials for different applications. Perovskite Ceramics: Recent Advances and Emerging Applications is divided into two main parts. The first part focuses on the basics of perovskite-based ceramic materials and includes chapters on the fundamentals, synthesis and processing, characterization, and properties of these materials. Chapters are also included on bulk and thin materials, phase transitions, polaronic effects and the compensation and screening of ferroelectricity. This section will allow the reader to familiarize themselves with the standard traditional approach, but it will also introduce new concepts that are fast evolving in this field. The second part presents an extensive review of up-to-date research on new and innovative advances in perovskite-based ceramic materials. Chapters cover multiferroic applications, lead-free perovskites, energy storage applications, perovskite-based memories, light manipulation and spectral modifications, and solar cells and fuel cells. All these fields of research are rapidly evolving, so the book acts a platform to showcase latest results on optical strategies and materials for light manipulation, and spectral up- and down-conversion too (mainly rare earth doped oxides and complexes). The book will be an essential reference resource for academic and industrial researchers working in materials research and development particularly in functional and oxide ceramics and perovskites. |
| Note |
Description based on online resource; title from digital title page (viewed on February 22, 2023). |
| Subject |
Ceramic materials.
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Perovskite materials.
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Ceramics.
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Matériaux céramiques.
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Céramique industrielle.
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ceramic (material)
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Ceramic materials
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Ceramics
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Perovskite materials
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| Added Author |
Clabel Huamán, José Luis, editor.
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Rivera, Victor Anthony Garcia, editor.
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| Other Form: |
Print version: Huaman, Jose Luis Clabel Perovskite Ceramics San Diego : Elsevier,c2022 |
| ISBN |
9780323907101 electronic book |
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0323907105 electronic book |
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9780323905862 paperback |
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0323905862 paperback |
| Standard No. |
AU@ 000073211621 |
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