1 PIEZOELECTRIC COEFFICIENTS AND CRYSTALLOGRAPHIC SYMMETRY 1.1. Simplified definitions of piezoelectric coefficients 1.2. Description of piezoelectricity by third-rank tensor 1.3. Symmetry considerations 2 PROBING PIEZOELECTRIC EFFECTS USING X-RAY DIFFRACTION 2.1.

X-ray diffraction in single crystals 2.2. Observation of piezoelectric effect in multidomain ferroelectrics 3 LEAD-BASED PIEZOELECTRIC MATERIALS 3.1 Introduction (Concept, Fundamental, Applications) 3.2 Brief history of lead-based piezoelectric materials 3.3 Recent progress on lead-based piezoelectric materials 3.4 Recent progress on the applications of lead-based piezoelectric 3.5 Challenges and prospects 4 LEAD-FREE PIEZOELECTRIC MATERIALS 4.

1 Perovskite structured lead-free piezoelectric materials 4.2 Bismuth layered lead-free piezoelectric materials 4.3 Tungsten bronze lead-free piezoelectric materials 4.4 Other lead-free piezoelectric materials 5 PIEZOELECTRICITY IN MOLECULAR FERROELECTRICS 5.1 Introduction 5.2 Piezoelectricity in Molecular Ferroelectrics 5.3 PFM-aided Characterization of Piezoelectricity 5.4 Designs and Demonstrations of Piezoelectric device 5.

5 Conclusions 6 TEXTURED PIEZOCERAMICS: PROCESSING, PROPERTY AND APPLICATIONS 6.1 Introduction 6.2 Fundamentals of Texture Development in Piezoceramics 6.3 Processing for Orientations in Piezoceramics 6.4 Texture-Property Relationships and Mechanisms in Piezoceramics 6.5 Device Applications of Textured Piezoceramics 6.6 Summary and Future Directions 7 PIEZOELECTRIC THIN FILMS 7.1 Introduction Piezoelectrics: from bulk materials to thin films 7.

2 Applications of piezoelectric thin films 7.3 Piezoelectric thin film growth 7.4 Structural characterization of piezoelectric thin films 7.5 Electrical characterization of piezoelectric thin films 7.6 Conclusions 8 ELECTROSTRICTIVE EFFECT 8.1 Introduction 8.2 Characterization of electrostrictive coefficients 8.3 Electrostrictive effect and electrostrictive strain in ferroelectrics 8.

4 Applications 8.5 Conclusions 9 PIEZOELECTRIC AND ELECTRO-OPTIC PROPERTIES IN LEAD-FREE SINGLE CRYSTAL 9.1 Introduction 9.2 KNN and KTN based single crystals 9.3. Piezoelectric properties of KNN based single crystal 9.4. Electro-optical properties of KTN base 9.

5. Summary and future 10 DIELECTRIC ENERGY STORAGE 10.1 Introduction 10.2 Fundamentals of dielectric energy storage materials 10.3 Problems and strategies of dielectric energy storage materials 10.4 Inorganic ferroelectrics, organic ferroelectrics and composite ferroelectrics for energy storage 10.5 Design and performance of dielectric energy storage Devices 10.6 Conclusions 11 ELECTROCALORIC EFFECT 11.

1 Introduction 11.2 Fundamentals of developing high-ECE in Ferroelectrics 11.3 Characterization Methods of ECE 11.4 ECE in inorganic ferroelectrics, organic ferroelectrics and other ferroelectrics 11.5 Designs and Demonstrations of EC cooling device 11.6 Conclusions 12 POROUS PIEZOELECTRIC MATERIALS FOR ENERGY TECHNOLOGIES 12.1 Introduction 12.2 Fabrication techniques for porous piezoelectric materials 12.

3 Characterization of porous piezoelectric materials 12.4 Applications of porous ferroelectric materials 13 PIEZOELECTRIC FLEXIBLE DEVICES 13.1. Introduction 13.2. General working mechanism of piezoelectric flexible devices 13.3. Materials and structure design of flexible devices 13.

4. Application of piezoelectric flexible devices 13.5. Summary 14 PIEZOELECTRIC APPLICATIONS IN BIOMEDICAL 14.1 Implantable Energy Harvesters 14.2 Ultrasound Imaging Transducers 14.3 Bone/Tissue Regeneration 14.4 Direct Cell/Neural Stimulation 14.

5 Antibacterial/Anti-inflammatory Effects 14.6 Oncology Treatment.