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Development of Printed Devices for Self-Powered Wearable Electronics
Karem Lozano Montero
Sähkötekniikka
Tutkimustuotos
:
Väitöskirja
›
Collection of Articles
Yleiskatsaus
Sormenjälki
Sormenjälki
Sukella tutkimusaiheisiin 'Development of Printed Devices for Self-Powered Wearable Electronics'. Ne muodostavat yhdessä ainutlaatuisen sormenjäljen.
Järjestys:
Painoarvo
Aakkosjärjestyksessä
Keyphrases
Active Layer
14%
Ag Ink
14%
Base Metals
42%
Biomechanical Application
14%
C Substrate
14%
Cardiovascular Parameters
14%
Charge Generation
14%
Comparative Analysis
14%
Conductive Path
14%
Contact Pair
14%
Device Components
14%
Device Structure
14%
Doctor Blade Coating
14%
Ecoflex
14%
Electrode Geometry
14%
Electrode Structure
14%
Electronic Components
14%
Electronic Devices
14%
Energy Harvesting Module
14%
Energy Harvesting System
28%
Engineering Materials
14%
Fabrication Methods
28%
Freeze Casting
14%
Freeze-drying Method
14%
Full Wave Rectifier
28%
Fully Printed
14%
Generated Power
14%
Generation Mechanism
14%
Healthcare
14%
Highly Flexible
14%
Hybrid Energy Harvesting
14%
Hybrid System
14%
Inkjet Print
14%
Inkjet-printed Electrodes
14%
Interdigitated Electrodes
57%
Mechanical Energy Harvesting
14%
Metal-insulator-metal
42%
Minimum Thickness
14%
Morphological Structure
14%
Nanoparticle Silver
14%
Novel Solutions
14%
Parylene C
14%
Piezo
14%
Piezoelectric Devices
42%
Piezoelectric Layer
14%
Piezoelectric Nanogenerator
71%
Piezoelectric Properties
14%
Piezoelectric Sensor
42%
Poly(3,4-ethylenedioxythiophene):Poly(styrenesulfonate)
28%
Poly(vinylidene fluoride-trifluoroethylene)
100%
Polyethylene Terephthalate
14%
Porous Film
28%
Power Density
14%
Power Generation
14%
Power Supply
14%
Printed Devices
100%
Printed Electronic Technology
14%
Printed Electronics
14%
Printing Technology
28%
Pulse Wave Measurement
28%
Self-powered
14%
Self-powered Electronics
14%
Self-powered Wearable Electronics
100%
Sensor Applications
14%
Stretchability
28%
Supplier Flexibility
14%
Surface Mount Device
14%
Three-dimensional Printing
14%
Triboelectric Nanogenerator
57%
Triboelectric Properties
14%
Triboelectricity
28%
Ultrathin
42%
Valuable Insight
14%
Wearable Applications
14%
Wearable Devices
14%
Widespread Adoption
28%
Working Mechanism
14%
Engineering
Active Layer
14%
Application of Sensors
14%
Comparative Analysis
14%
Conductive Path
14%
Contact Pair
14%
Device Structure
14%
Doctor Blade Coating
14%
Electrode Geometry
14%
Electrode Structure
14%
Energy Harvesting
42%
Engineering
14%
Fabrication Method
14%
Hybrid Energy
14%
Metal-Insulator-Metal
42%
Piezoelectric
100%
Piezoelectric Device
42%
Piezoelectric Sensor
42%
Porosity
42%
Porous Film
28%
Power Density
14%
Power Generation
14%
Power Supply
14%
Printed Electronics
28%
Producing Device
14%
Self-Powered
100%
Silver Nanoparticle
14%
Surface Mount Technology
14%
Three Dimensional Printing
14%
Triboelectric Nanogenerators
57%
Wearable Electronics
100%
Material Science
Density
7%
Electronic Component
7%
Engineering Material
7%
Film
30%
Novel Device
7%
Piezoelectricity
100%
Polyethylene Terephthalate
7%
Polystyrene
15%
Silver Nanoparticle
7%
Surface (Surface Science)
7%
Three Dimensional Printing
7%