Ferroelectric materials for energy applications:
Gespeichert in:
| Weitere Verfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim
Wiley-VCH
[2018]
|
| Schlagworte: | |
| Online-Zugang: | http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34271-6/ Inhaltsverzeichnis |
| Beschreibung: | xi, 372 Seiten Illustrationen, Diagramme |
| ISBN: | 9783527342716 |
Internformat
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| 245 | 1 | 0 | |a Ferroelectric materials for energy applications |c edited by Haitao Huang and James F. Scott |
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| 653 | |a Electronic Materials | ||
| 653 | |a Elektronische Materialien | ||
| 653 | |a Energie | ||
| 653 | |a Energy | ||
| 653 | |a Festkörperphysik | ||
| 653 | |a Materials Science | ||
| 653 | |a Materialwissenschaften | ||
| 653 | |a Physics | ||
| 653 | |a Physik | ||
| 653 | |a Solar Energy & Photovoltaics | ||
| 653 | |a Solarenergie u. Photovoltaik | ||
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Datensatz im Suchindex
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| adam_text | CONTENTS
PREFACE
XI
1 FUNDAMENTALS OF FERROELECTRIC MATERIALS
1
LING B. KONG, HAITAO HUANG, AND SEAN LI
1.1 INTRODUCTION 1
1.2 PIEZOELECTRIC MECHANICAL ENERGY HARVESTING 4
1.2.1 PIEZOELECTRICITY 4
1.2.2 BRIEF HISTORY OF MODERN PIEZOELECTRIC CERAMICS 6
1.2.3 PRINCIPLE OF PIEZOELECTRIC EFFECT FOR MECHANICAL ENERGY
HARVESTING 7
1.3 PYROELECTRIC THERMAL ENERGY HARVESTING 10
1.3.1 PRINCIPLE OF PYROELECTRIC EFFECT 10
1.3.2 PYROELECTRIC COEFFICIENT AND ELECTROCALORIC COEFFICIENT 12
1.3.3 PRIMARY AND SECONDARY PYROELECTRIC COEFFICIENT 14
1.3.4 TERTIARY PYROELECTRIC COEFFICIENT AND OTHER ASPECTS 25
1.3.5 PYROELECTRIC EFFECT VERSUS PHASE TRANSITION 17
1.4 ELECTROCALORIC (EC) EFFECT OF FERROELECTRIC MATERIALS 19
1.5 FERROELECTRIC PHOTOVOLTAIC SOLAR ENERGY HARVESTING 23
1.6 CONCLUDING REMARKS 27
REFERENCES 28
2
PIEZOELECTRIC ENERGY GENERATION
33
HONG G. YEO AND SUSAN TROLIER-MCKINSTRY
2.1 KINETIC ENERGY HARVESTING 33
2.1.1 THEORY OF KINETIC ENERGY HARVESTING 33
2.1.2 KINETIC VIBRATION SOURCE IN THE AMBIENT 35
2.1.3 TRANSDUCERS FOR MECHANICAL ENERGY HARVESTING 36
2.2 PIEZOELECTRIC VIBRATION HARVESTING 39
2.2.1 PIEZOELECTRICITY 39
2.2.2 THEORY OF PIEZOELECTRIC VIBRATION ENERGY HARVESTING 40
2.3 CHOICE OF MATERIALS FOR ENERGY HARVESTING 43
2.3.1 MATERIALS FOR PIEZOELECTRIC MEMS HARVESTING 43
2.3.2 EFFECT OF STRESS INDUCED BY SUBSTRATE 45
2.4 DESIGN AND CONFIGURATION OF PIEZOELECTRIC HARVESTER 47
2.4.1 OPTION OF PIEZOELECTRIC CONFIGURATION 47
VI
CONTENTS
2.4.2 UNIMORPH AND BIMORPH STRUCTURES 48
2.4.3 LINEAR PIEZOELECTRIC ENERGY HARVESTERS 49
2.4.4 NONLINEAR ENERGY HARVESTING 49
2.5 REVIEW OF PIEZOELECTRIC THIN FILMS ON METAL
SUBSTRATE (FOILS) 52
2.6 CONCLUSIONS 53
REFERENCES 53
3 FERROELECTRIC PHOTOVOLTAICS
61
AKASH BHATNAGAR
3.1 INTRODUCTION 61
3.2 HISTORICAL BACKGROUND 62
3.2.1 RECENT STUDIES 68
3.3 MODULATION OF THE EFFECT 74
3.3.1 POLARIZATION 74
3.3.2 ELECTRODES 77
3.3.3 BAND GAP ENGINEERING 79
3.3.4 PHOTO-MECHANICAL COUPLING 84
3.4 SUMMARY AND OUTLOOK 88
REFERENCES 89
4 ORGANIC-INORGANIC HYBRID PEROVSKITES FOR SOLAR ENERGY
CONVERSION
95
PENG YOU AND FENG YAN
4.1 INTRODUCTION 95
4.2 FUNDAMENTAL PROPERTIES OF HYBRID PEROVSKITES 96
4.2.1 CRYSTAL STRUCTURES 96
4.2.2 OPTICAL PROPERTIES 97
4.2.3 CHARGE TRANSPORT PROPERTIES 98
4.2.4 COMPOSITIONAL ENGINEERING AND BANDGAP TUNING 98
4.3 SYNTHESIS OF HYBRID PEROVSKITE CRYSTALS 99
4.3.1 BULK CRYSTAL GROWTH 99
4.3.2 NANOCRYSTAL SYNTHESIS 100
4.4 DEPOSITION METHODS OF PEROVSKITE FILMS 101
4.4.1 ONE-STEP SOLUTION PROCESS 101
4.4.2 TWO-STEP SOLUTION PROCESS 102
4.4.3 VAPOR-PHASE DEPOSITION 103
4.5 EFFICIENCY ROADMAP OF PEROVSKITE SOLAR CELLS 103
4.6 WORKING MECHANISM AND DEVICE ARCHITECTURES OF PEROVSKITE SOLAR
CELLS 106
4.7 KEY CHALLENGES OF PEROVSKITE SOLAR CELLS 108
4.7.1 LONG-TERM STABILITY 108
4.7.2 L - V HYSTERESIS 110
4.7.3 TOXICITY OF RAW MATERIALS 111
4.8 SUMMARY AND PERSPECTIVES 111
REFERENCES 112
5 DIELECTRIC CERAMICS AND FILMS FOR ELECTRICAL ENERGY
STORAGE
119
XIHONG HAO
5.1 INTRODUCTION 119
5.2 PRINCIPLES OF DIELECTRIC CAPACITORS FOR ELECTRICAL ENERGY STORAGE
120
5.2.1 THE BASIC KNOWLEDGE ON CAPACITORS 120
5.2.2 SOME IMPORTANT PARAMETERS FOR ELECTRICAL ENERGY STORAGE 122
5.2.2.1 ENERGY-STORAGE DENSITY 122
5.2.2.2 ENERGY EFFICIENCY 122
5.2.2.3 BREAKDOWN STRENGTH (BDS) 123
5.2.2.4 THERMAL STABILITY 124
5.2.2.5 POWER DENSITY 125
5.2.2.6 SERVICE LIFE 125
5.2.3 MEASUREMENT TECHNIQUES OF ENERGY DENSITY 125
5.2.3.1 POLARIZATION-BASED METHOD 125
5.2.3.2 INDIRECT CALCULATED METHOD 127
5.2.3.3 DIRECT CHARGE-DISCHARGE METHOD 127
5.3 THE ENERGY-STORAGE PERFORMANCE IN PARAELECTRIC-LIKE METAL
OXIDES 129
5.3.1 SIMPLE METAL OXIDES 129
5.3.1.1 TI02 129
5.3.1.2 Z R0 2 130
5.3.1.3 A120 3 130
5.3.2 MULTI-METAL OXIDES 130
5.3.2.1 SRTIOZ 131
5.3.2.2 BIX 5ZN09NB150 69 131
5.4 THE ENERGY-STORAGE PERFORMANCE IN ANTIFERROELECTRICS 131
5.4.1 PBZROS-BASED ANTIFERROELECTRIC 132
5.4.2 (NA0 5BI0 5)TI03-BASED ANTIFERROELECTRIC 140
5.4.3 AGNB03-BASED ANTIFERROELECTRIC 143
5.4.4 H F02-BASED ANTIFERROELECTRIC 143
5.5 ENERGY-STORAGE PERFORMANCE IN GLASS-CERAMIC FERROELECTRICS 144
5.5.1 GLASS-CERAMIC FERROELECTRICS PREPARED BY COMPOSITING METHOD 145
5.5.2 GLASS-CERAMIC PREPARED BY BODY-CRYSTALLIZATION METHOD 146
5.5.2.1 LEAD-CONTAINING GLASS-CERAMIC 146
5.5.2.2 BATI03-BASED GLASS-CERAMIC 146
5.5.2.3 NB-CONTAINING GLASS-CERAMIC 147
5.5.3 INTERFACE EFFECT-RELATED ENERGY-STORAGE PERFORMANCE 148
5.6 ENERGY-STORAGE PERFORMANCE IN RELAXOR FERROELECTRICS 151
5.6.1 PLZT RELAXOR FERROELECTRICS 152
5.6.2 BATI03-BASED RELAXOR FERROELECTRICS 154
5.6.3 PBTI03-BASED RELAXOR FERROELECTRICS 157
5.6.4 BIFEOS-BASED RELAXOR FERROELECTRICS 157
5.7 THE GENERAL FUTURE PROSPECTS 158
REFERENCES 159
6 FERROELECTRIC POLYMER MATERIALS FOR ELECTRIC ENERGY
STORAGE
169
ZHI-MIN DANG, MING-SHENG ZHENG, AND JUN-WEI ZHA
6.1 INTRODUCTION 169
6.2 ENERGY STORAGE THEORY 170
6.3 ENERGY STORAGE OF FERROELECTRIC POLYMERS 172
6.4 ENERGY STORAGE OF FERROELECTRIC POLYMER-BASED NANOCOMPOSITES 175
6.4.1 FERROELECTRIC POLYMER-BASED NANOCOMPOSITES USING OD
NANOFILLERS 2 77
6.4.1.1 SURFACE-MODIFIED OD NANOFILLERS 177
6.4.1.2 CORE-SHELL STRUCTURE OD NANOFILLERS 181
6.4.1.3 MULTILEVEL STRUCTURE NANOCOMPOSITES 183
6.4.2 FERROELECTRIC POLYMER-BASED NANOCOMPOSITES USING ID
NANOFILLERS 184
6.4.2.1 SURFACE-MODIFIED ID NANOFILLERS 184
6A.2.2
CORE-SHELL STRUCTURE ID NANOFILLERS 189
6.4.2.3 MULTILEVEL STRUCTURE NANOCOMPOSITES 189
6.4.3 FERROELECTRIC POLYMER-BASED NANOCOMPOSITES USING 2D
NANOFILLERS 190
6.5 SUMMARY 193
REFERENCES 193
7 PYROELECTRIC ENERGY HARVESTING: MATERIALS AND
APPLICATIONS
203
CHRIS R. BOWEN, MENGYINGXIE, YAN ZHANG, VITALY YU. TOPOLOV, AND
CHAOYING WAN
7.1 INTRODUCTION TO PYROELECTRIC ENERGY HARVESTING 203
7.2 NANOSTRUCTURED AND MICROSCALE MATERIALS AND DEVICES 205
7.3 HYBRID PYROELECTRIC GENERATORS 207
7.3.1 HYBRID PIEZOELECTRIC AND PYROELECTRIC SYSTEM 207
7.3.2 HYBRID PYROELECTRIC AND SOLAR SYSTEMS 209
7.4 PYROELECTRIC OSCILLATOR SYSTEMS 210
7.5 PYROELECTRIC COUPLING WITH ELECTROCHEMICAL SYSTEMS 212
7.6 POROUS PYROELECTRIC MATERIALS 212
7.6.1 MANUFACTURE OF ISOTROPIC POROUS PYROELECTRIC MATERIALS 214
7.6.1.1 LOST WAX REPLICATION OF A CORAL SKELETON (POSITIVE TEMPLATE) 214
7.6.1.2 POLYMERIC SPONGE (POSITIVE TEMPLATE) 214
7.6.1.3 BURNED OUT PLASTIC SPHERES (BURPS) (NEGATIVE TEMPLATE) 215
7.6.1.4 DIRECT PORE FORMING 215
7.6.1.5 GEL CASTING 215
7.6.2 MANUFACTURE OF ANISOTROPIC POROUS PYROELECTRIC MATERIALS 216
7.6.2.1 FREEZE CASTING 216
1.62.2 3D RAPID PROTOTYPING 218
12
FIGURES OF MERIT AND APPLICATIONS CONCERNED WITH RADIATIONS 219
7.8 CONCLUSIONS 221
ACKNOWLEDGMENTS 222
REFERENCES 222
8
FERROELECTRICS IN ELECTROCALORIC COOLING
231
BIAOLIN PENG AND QI ZHANG
8.1 FUNDAMENTALS OF ELECTROCALORIC EFFECTS 231
8.1.1 MAXWELL RELATIONS AND COUPLED ELECTROCALORIC EFFECTS 231
8.1.2 ELECTROCALORIC EFFECT DERIVED FROM THE LANDAU-DEVONSHIRE
PHENOMENOLOGICAL THEORY 235
8.1.3 PHYSICAL UPPER BOUNDS ON THE ELECTROCALORIC EFFECT DERIVED FROM
THE
STATISTICAL THERMODYNAMICS THEORY 236
8.1.4 ECE MEASUREMENT METHODS 238
8.1.5 POSITIVE AND NEGATIVE ELECTROCALORIC EFFECTS 238
8.2 ELECTROCALORIC DEVICES 242
8.2.1 ELECTROCALORIC REFRIGERATOR PROTOTYPE 242
8.2.2 MLCC AND MLPC EC REFRIGERATOR MODULES 244
8.3 ELECTROCALORIC MATERIALS 245
8.3.1 EC IN FERROELECTRIC CERAMICS 245
8.3.1.1 IN BULK CERAMICS AND SINGLE CRYSTALS 245
8.3.1.2 IN THIN FILMS 248
8.3.2 EC IN FERROELECTRIC POLYMER MATERIALS 250
8.3.2.1 IN NORMAL FERROELECTRIC POLYMERS 251
8.3.2.2 IN RELAXOR FERROELECTRIC TERPOLYMERS 253
8.3.3 EC IN OTHER MATERIALS 254
8.3.3.1 IN COMPOSITES 254
8.3.3.2 IN LIQUID CRYSTALS 257
5.3.3.3 IN FAST ION CONDUCTORS 259
8.4 SUMMARY AND OUTLOOK 260
REFERENCES 262
9
FERROELECTRICS IN PHOTOCATALYSIS
265
LIANG FANG, LU YOU, ANDJUN-MING LIU
9.1 INTRODUCTION 265
9.2 FUNDAMENTAL PRINCIPLES OF SEMICONDUCTOR PHOTOCATALYSIS 266
9.3 ADVANCES IN UNDERSTANDING FERROELECTRIC PHOTOCATALYTIC
MECHANISMS 269
9.4 PHOTOCHEMISTRY OF FERROELECTRIC MATERIALS 271
9.5 PHOTOCATALYTIC DEGRADATION USING FERROELECTRIC MATERIALS 280
9.6 PHOTOCATALYTIC WATER-SPLITTING USING FERROELECTRIC MATERIALS 289
9.7 CONCLUSION AND PERSPECTIVES 297
9.7.1 LIGHT ABSORPTION 299
9.7.2 CARRIER SEPARATION AND TRANSPORT 300
9.7.3 CARRIER COLLECTION/REACTION 301
ACKNOWLEDGMENTS 301
REFERENCES 301
10 FIRST-PRINCIPLES CALCULATIONS ON FERROELECTRICS FOR ENERGY
APPLICATIONS
311
GELEI JIANG, WEIJIN CHEN, AND YUE ZHENG
INTRODUCTION 311
10.1
10.2 METHODS 312
10.2.1 FIRST-PRINCIPLES CALCULATIONS 312
10.2.2 FIRST-PRINCIPLES-DERIVED EFFECTIVE HAMILTONIAN METHOD 312
10.3 ENERGY CONVERSION 313
10.3.1 PIEZOELECTRIC AND FLEXOELECTRIC EFFECT 313
10.3.2 PHOTOVOLTAIC EFFECT 322
10.3.3 PYROELECTRIC AND ELECTROCALORIC EFFECT 327
10.4 ENERGY STORAGE 331
REFERENCES 337
11 FUTURE PERSPECTIVES
349
HAITAO HUANG
11.1 ENHANCED LITHIUM ION TRANSPORT IN POLYMER ELECTROLYTE 350
11.2 ENHANCED POLYSULFIDE TRAPPING IN LI-S BATTERIES 351
11.3 ENHANCED DISSOCIATION OF EXCITONS 352
11.4 NEW MATERIALS 354
11.5 NEW APPLICATIONS 357
REFERENCES 359
INDEX
363
|
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| author2 | Huang, Haitao Scott, James F. 1942-2020 |
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| author_GND | (DE-588)1171749201 (DE-588)121472183 |
| author_facet | Huang, Haitao Scott, James F. 1942-2020 |
| building | Verbundindex |
| bvnumber | BV045246889 |
| classification_rvk | UP 4700 ZN 3430 |
| ctrlnum | (OCoLC)1077281297 (DE-599)DNB1156797845 |
| discipline | Physik Elektrotechnik / Elektronik / Nachrichtentechnik |
| format | Book |
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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV045246889 |
| illustrated | Illustrated |
| indexdate | 2024-07-10T08:12:42Z |
| institution | BVB |
| institution_GND | (DE-588)16179388-5 |
| isbn | 9783527342716 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-030634976 |
| oclc_num | 1077281297 |
| open_access_boolean | |
| owner | DE-29T DE-11 DE-703 DE-83 DE-634 |
| owner_facet | DE-29T DE-11 DE-703 DE-83 DE-634 |
| physical | xi, 372 Seiten Illustrationen, Diagramme |
| publishDate | 2018 |
| publishDateSearch | 2018 |
| publishDateSort | 2018 |
| publisher | Wiley-VCH |
| record_format | marc |
| spelling | Ferroelectric materials for energy applications edited by Haitao Huang and James F. Scott Weinheim Wiley-VCH [2018] © 2018 xi, 372 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Energy Harvesting (DE-588)7664612-9 gnd rswk-swf Elektrischer Speicher (DE-588)4151737-4 gnd rswk-swf Energietechnik (DE-588)4014725-3 gnd rswk-swf Ferroelektrikum (DE-588)4154121-2 gnd rswk-swf Fotovoltaik (DE-588)4121476-6 gnd rswk-swf Electronic Materials Elektronische Materialien Energie Energy Festkörperphysik Materials Science Materialwissenschaften Physics Physik Solar Energy & Photovoltaics Solarenergie u. Photovoltaik Solid State Physics (DE-588)4143413-4 Aufsatzsammlung gnd-content Energietechnik (DE-588)4014725-3 s Ferroelektrikum (DE-588)4154121-2 s Energy Harvesting (DE-588)7664612-9 s Elektrischer Speicher (DE-588)4151737-4 s Fotovoltaik (DE-588)4121476-6 s DE-604 Huang, Haitao (DE-588)1171749201 edt Scott, James F. 1942-2020 (DE-588)121472183 edt Wiley-VCH (DE-588)16179388-5 pbl Erscheint auch als Online-Ausgabe, ePDF 978-3-527-80747-5 Erscheint auch als Online-Ausgabe, ePub 978-3-527-80749-9 Erscheint auch als Online-Ausgabe, oBook 978-3-527-80750-5 X:MVB http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34271-6/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030634976&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Ferroelectric materials for energy applications Energy Harvesting (DE-588)7664612-9 gnd Elektrischer Speicher (DE-588)4151737-4 gnd Energietechnik (DE-588)4014725-3 gnd Ferroelektrikum (DE-588)4154121-2 gnd Fotovoltaik (DE-588)4121476-6 gnd |
| subject_GND | (DE-588)7664612-9 (DE-588)4151737-4 (DE-588)4014725-3 (DE-588)4154121-2 (DE-588)4121476-6 (DE-588)4143413-4 |
| title | Ferroelectric materials for energy applications |
| title_auth | Ferroelectric materials for energy applications |
| title_exact_search | Ferroelectric materials for energy applications |
| title_full | Ferroelectric materials for energy applications edited by Haitao Huang and James F. Scott |
| title_fullStr | Ferroelectric materials for energy applications edited by Haitao Huang and James F. Scott |
| title_full_unstemmed | Ferroelectric materials for energy applications edited by Haitao Huang and James F. Scott |
| title_short | Ferroelectric materials for energy applications |
| title_sort | ferroelectric materials for energy applications |
| topic | Energy Harvesting (DE-588)7664612-9 gnd Elektrischer Speicher (DE-588)4151737-4 gnd Energietechnik (DE-588)4014725-3 gnd Ferroelektrikum (DE-588)4154121-2 gnd Fotovoltaik (DE-588)4121476-6 gnd |
| topic_facet | Energy Harvesting Elektrischer Speicher Energietechnik Ferroelektrikum Fotovoltaik Aufsatzsammlung |
| url | http://www.wiley-vch.de/publish/dt/books/ISBN978-3-527-34271-6/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030634976&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT huanghaitao ferroelectricmaterialsforenergyapplications AT scottjamesf ferroelectricmaterialsforenergyapplications AT wileyvch ferroelectricmaterialsforenergyapplications |