This comprehensive book covers recent developments in advanced dielectric, piezoelectric and ferroelectric materials. Dielectric materials such as ceramics are used to manufacture microelectronic devices. Piezoelectric components have been used for many years in radioelectrics, time-keeping and, more recently, in microprocessor-based devices. Ferroelectric materials are widely used in various devices such as piezoelectric/electrostrictive transducers and actuators, pyroelectric infrared detectors, optical integrated circuits, optical data storage and display devices.The book is divided into…mehr
This comprehensive book covers recent developments in advanced dielectric, piezoelectric and ferroelectric materials. Dielectric materials such as ceramics are used to manufacture microelectronic devices. Piezoelectric components have been used for many years in radioelectrics, time-keeping and, more recently, in microprocessor-based devices. Ferroelectric materials are widely used in various devices such as piezoelectric/electrostrictive transducers and actuators, pyroelectric infrared detectors, optical integrated circuits, optical data storage and display devices.The book is divided into eight parts under the general headings: High strain high performance piezo- and ferroelectric single crystals; Electric field-induced effects and domain engineering; Morphotropic phase boundary related phenomena; High power piezoelectric and microwave dielectric materials; Nanoscale piezo- and ferroelectrics; Piezo- and ferroelectric films; Novel processing and new materials; Novel properties of ferroelectrics and related materials. Each chapter looks at key recent research on these materials, their properties and potential applications.Advanced dielectric, piezoelectric and ferroelectric materials is an important reference tool for all those working in the area of electrical and electronic materials in general and dielectrics, piezoelectrics and ferroelectrics in particular.
Produktdetails
Produktdetails
Woodhead Publishing Series in Electronic and Optical Materials
Zuo-Guang Ye is Professor of Chemistry at Simon Fraser University, Canada. He is recognized as a world leader in the growth and characterization of novel single crystals.
Inhaltsangabe
Part 1 High strain high performance piezo- and ferroelectric single crystals: Bridgman growth and properties of PMN-PT single crystals; Flux growth and characterization of PZN-PT and PMN-PT single crystals; Recent developments and applications of Piezo crystals; Piezoelectric single crystals for medical ultrasonic transducers; High performance, high-TC piezoelectric crystals; Development of high performance piezoelectric single crystals by using solid-state single crystal growth (SSCG) method; Piezo- and ferroelectric (1-x)Pb(Sc1/2Nb1/2)O3?xPbTiO3 solid solution system; High-curie temperatures piezoelectric single crystal of the Pb(In1/2Nb1/2)O3-Pb(Mg1/3Nb2/3)O3-PbTiO3 ternary materials system. Part 2 Field-induced effects and domain engineering: Full set material properties and domain engineering principles of ferroelectric single crystals; Domain wall engineering in piezoelectric crystals with engineered domain configuration; Enhancement of piezoelectric properties in perovskite crystals by thermally, compositionally, electric field and stress induced instabilities; Electric-field-induced domain structures and phase transitions in PMN-PT single crystals; Energy analysis of field induced phase transitions in relaxor-based piezo- and ferroelectric crystals. Part 3 Morphotropic phase boundary and related phenomena: From the structure of relaxor to the structure of MPB systems; Size effects on the macroscopic properties of the relaxor-ferroelectric Pb(Mg1/3Nb2/3)O3-PbTiO3 solid solution. Part 4 High power piezoelectric and microwave dielectric materials: Loss mechanisms and high power piezoelectric components; Bismuth-based pyrochlore dielectric ceramics for microwave applications. Part 5 Nanoscale piezo- and ferroelectrics: Ferroelectric nanostructures for device applications; Domains in ferroelectric nanostructures from first principles; Nanosized ferroelectric crystals; Nano- and micro-domain engineering in normal and relaxor ferroelectrics; Interface control in 3D ferroelectric nano-composites. Part 6 Piezo- and ferroelectric films: Single crystalline PZT Films and the impact of extended structural defects on the ferroelectric properties; Piezoelectric thick films for MEMS application; Symmetry engineering in ferroelectric thin films. Part 7 Novel processing and new materials: Processing of textured piezoelectric and dielectric perovskite-structured ceramics by reactive-templated grain growth method; Grain orientation and electrical properties of bismuth layer-structured ferroelectrics; Novel solution routes to ferroelectrics and relaxors; Room temperature preparation of KNbO3 nanoparticles and thin film from a perovskite nanosheet; Lead-free relaxors. Part 8 Novel properties of ferroelectrics and related materials: Novel physical effects in dielectric superlattices and their applications; Dielectric and optical properties of perovskite artificial superlattices; Crystal structure and defect control in Bi4Ti3O12-based layered ferroelectric single crystals.
Part 1 High strain high performance piezo- and ferroelectric single crystals: Bridgman growth and properties of PMN-PT single crystals; Flux growth and characterization of PZN-PT and PMN-PT single crystals; Recent developments and applications of Piezo crystals; Piezoelectric single crystals for medical ultrasonic transducers; High performance, high-TC piezoelectric crystals; Development of high performance piezoelectric single crystals by using solid-state single crystal growth (SSCG) method; Piezo- and ferroelectric (1-x)Pb(Sc1/2Nb1/2)O3?xPbTiO3 solid solution system; High-curie temperatures piezoelectric single crystal of the Pb(In1/2Nb1/2)O3-Pb(Mg1/3Nb2/3)O3-PbTiO3 ternary materials system. Part 2 Field-induced effects and domain engineering: Full set material properties and domain engineering principles of ferroelectric single crystals; Domain wall engineering in piezoelectric crystals with engineered domain configuration; Enhancement of piezoelectric properties in perovskite crystals by thermally, compositionally, electric field and stress induced instabilities; Electric-field-induced domain structures and phase transitions in PMN-PT single crystals; Energy analysis of field induced phase transitions in relaxor-based piezo- and ferroelectric crystals. Part 3 Morphotropic phase boundary and related phenomena: From the structure of relaxor to the structure of MPB systems; Size effects on the macroscopic properties of the relaxor-ferroelectric Pb(Mg1/3Nb2/3)O3-PbTiO3 solid solution. Part 4 High power piezoelectric and microwave dielectric materials: Loss mechanisms and high power piezoelectric components; Bismuth-based pyrochlore dielectric ceramics for microwave applications. Part 5 Nanoscale piezo- and ferroelectrics: Ferroelectric nanostructures for device applications; Domains in ferroelectric nanostructures from first principles; Nanosized ferroelectric crystals; Nano- and micro-domain engineering in normal and relaxor ferroelectrics; Interface control in 3D ferroelectric nano-composites. Part 6 Piezo- and ferroelectric films: Single crystalline PZT Films and the impact of extended structural defects on the ferroelectric properties; Piezoelectric thick films for MEMS application; Symmetry engineering in ferroelectric thin films. Part 7 Novel processing and new materials: Processing of textured piezoelectric and dielectric perovskite-structured ceramics by reactive-templated grain growth method; Grain orientation and electrical properties of bismuth layer-structured ferroelectrics; Novel solution routes to ferroelectrics and relaxors; Room temperature preparation of KNbO3 nanoparticles and thin film from a perovskite nanosheet; Lead-free relaxors. Part 8 Novel properties of ferroelectrics and related materials: Novel physical effects in dielectric superlattices and their applications; Dielectric and optical properties of perovskite artificial superlattices; Crystal structure and defect control in Bi4Ti3O12-based layered ferroelectric single crystals.
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