Chapter 1: Introduction; 1.1 Background; 1.2 Energy Harvesters; 1.3 Overview; Chapter 2: Design and Fabrication of Flexible Piezoelectric Generators Based on ZnO Thin Films; 2.1 Introduction; 2.2 Characterization and Theoretical Analysis of Flexible ZnO-Based Piezoelectric Harvesters; 2.3 The Fabrication of Flexible Piezoelectric ZnO Harvesters on PET Substrates; 2.4 Fabrication and Performance of Flexible ZnO/SUS304-Based Piezoelectric Generators; 2.5 Summary; References. Chapter 3: Design and Fabrication of Vibration-Induced Electromagnetic Microgenerators3.1 Introduction; 3.2 Comparisons between MCTG and SMTG; 3.3 Analysis of Electromagnetic Vibration-Induced Microgenerators; 3.4 Analytical Results and Discussion; 3.5 Fabrication of Microcoil for Microgenerator; 3.6 Tests and Experiments; 3.7 Conclusions; 3.8 Summary; References; Chapter 4: Design and Fabrication of Rotary Electromagnetic Microgenerator; 4.1 Introduction; 4.2 Case 1: Winding Generator; 4.3 Case 2: LTCC Generator; 4.4 Fabrication; 4.5 Results and Discussion; References. Chapter 5: Design and Fabrication of Electrospun PVDF Piezo-Energy Harvesters5.1 Introduction; 5.2 Fundamentals of Electrospinning Technology; 5.3 Near-Field Electrospinning; 5.4 Continuous NFES; 5.5 Direct-Write Piezoelectric Nanogenerator; 5.6 Materials, Structure, and Operation of Nanogenerator with Future Prospects; 5.7 Case Study: Large-Array Electrospun PVDF Nanogenerators on a Flexible Substrate; 5.8 Conclusion; 5.9 Future Direction

Presents the latest methods for designing and fabricating self-powered micro-generators and energy harvester systemsDesign and Fabrication of Self-Powered Micro-Harvesters introduces the latest trends of self-powered generators and energy harvester systems, including the design, analysis and fabrication of micro power systems. Presented in four distinct parts, the authors explore the design and fabrication