Development of Printed Devices for Self-Powered Wearable Electronics

Keyphrases

• Printed Devices 100%
• Poly(vinylidene fluoride-trifluoroethylene) 100%
• Self-powered Wearable Electronics 100%
• Piezoelectric Nanogenerator 71%
• Interdigitated Electrodes 57%
• Triboelectric Nanogenerator 57%
• Piezoelectric Sensor 42%
• Ultrathin 42%
• Base Metals 42%
• Piezoelectric Devices 42%
• Metal-insulator-metal 42%
• Fabrication Methods 28%
• Printing Technology 28%
• Energy Harvesting System 28%
• Stretchability 28%
• Widespread Adoption 28%
• Porous Film 28%
• Triboelectricity 28%
• Pulse Wave Measurement 28%
• Poly(3,4-ethylenedioxythiophene):Poly(styrenesulfonate) 28%
• Full Wave Rectifier 28%
• Freeze-drying Method 14%
• Electrode Geometry 14%
• Morphological Structure 14%
• Sensor Applications 14%
• Electronic Devices 14%
• Polyethylene Terephthalate 14%
• Inkjet Print 14%
• Printed Electronics 14%
• Healthcare 14%
• Highly Flexible 14%
• Parylene C 14%
• Engineering Materials 14%
• Three-dimensional Printing 14%
• Electronic Components 14%
• Comparative Analysis 14%
• Power Supply 14%
• Wearable Applications 14%
• Valuable Insight 14%
• Hybrid System 14%
• Device Structure 14%
• Device Components 14%
• Electrode Structure 14%
• Power Density 14%
• Freeze Casting 14%
• Active Layer 14%
• Power Generation 14%
• Novel Solutions 14%
• Wearable Devices 14%
• Charge Generation 14%
• Working Mechanism 14%
• Fully Printed 14%
• Ag Ink 14%
• Piezoelectric Properties 14%
• Nanoparticle Silver 14%
• Piezo 14%
• Doctor Blade Coating 14%
• Printed Electronic Technology 14%
• Surface Mount Device 14%
• Self-powered 14%
• Generation Mechanism 14%
• Generated Power 14%
• Energy Harvesting Module 14%
• Supplier Flexibility 14%
• Mechanical Energy Harvesting 14%
• C Substrate 14%
• Minimum Thickness 14%
• Cardiovascular Parameters 14%
• Piezoelectric Layer 14%
• Ecoflex 14%
• Hybrid Energy Harvesting 14%
• Inkjet-printed Electrodes 14%
• Biomechanical Application 14%
• Self-powered Electronics 14%
• Conductive Path 14%
• Contact Pair 14%
• Triboelectric Properties 14%

Engineering

• Piezoelectric 100%
• Wearable Electronics 100%
• Self-Powered 100%
• Triboelectric Nanogenerators 57%
• Energy Harvesting 42%
• Piezoelectric Sensor 42%
• Piezoelectric Device 42%
• Metal-Insulator-Metal 42%
• Porosity 42%
• Printed Electronics 28%
• Porous Film 28%
• Silver Nanoparticle 14%
• Engineering 14%
• Electrode Geometry 14%
• Fabrication Method 14%
• Power Density 14%
• Comparative Analysis 14%
• Power Generation 14%
• Application of Sensors 14%
• Hybrid Energy 14%
• Device Structure 14%
• Power Supply 14%
• Electrode Structure 14%
• Active Layer 14%
• Surface Mount Technology 14%
• Conductive Path 14%
• Doctor Blade Coating 14%
• Producing Device 14%
• Contact Pair 14%
• Three Dimensional Printing 14%

Material Science

• Piezoelectricity 100%
• Film 30%
• Polystyrene 15%
• Density 7%
• Polyethylene Terephthalate 7%
• Engineering Material 7%
• Electronic Component 7%
• Three Dimensional Printing 7%
• Novel Device 7%
• Surface (Surface Science) 7%
• Silver Nanoparticle 7%