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Study of Fiber-Based Wearable Energy Systems
Xiaoming Tao
The Hong Kong Polytechnic University
Research output
:
Journal article publication
›
Journal article
›
Academic research
›
peer-review
97
Citations (Scopus)
Overview
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Dive into the research topics of 'Study of Fiber-Based Wearable Energy Systems'. Together they form a unique fingerprint.
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Keyphrases
Fiber-based
100%
Energy Systems
100%
Wearable Power Sources
100%
High Performance
40%
Power Output
40%
Hybrid Generator
40%
Thermoelectric Generator
40%
Triboelectric Generator
40%
Piezoelectric Generator
40%
Low Temperature
20%
Deformation Mode
20%
Materials Science
20%
Material Properties
20%
Ambient Environment
20%
Physical Mechanism
20%
Field-induced
20%
Synergistic Effect
20%
Operating Conditions
20%
Output Current
20%
Output Voltage
20%
Material Deformation
20%
Physical Phenomena
20%
Costing Methods
20%
Regulatory System
20%
Power Supply
20%
Adjustable Parameters
20%
Photonic Devices
20%
Voltage Power
20%
Engineering Design
20%
Device Structure
20%
Charge Density
20%
Highly Deformable Materials
20%
Electronic Devices
20%
Energy Harvesting
20%
Gas Ionization
20%
Three-dimensional Printing
20%
Functional Materials
20%
Smart Wearables
20%
Energy Harvesting System
20%
Stretchable
20%
Induced Emissions
20%
In Situ Reduction
20%
Rechargeable Batteries
20%
Device Physics
20%
Microelectronic Systems
20%
Triboelectricity
20%
Triboelectric Nanogenerator
20%
Human-friendly
20%
Scientific Guidance
20%
Thermal Energy Harvesting
20%
Contact Mode
20%
Triboelectric Charge
20%
Material Property Parameters
20%
Charge Measurement
20%
Highly Porous Materials
20%
Waste Heat Energy
20%
Electric Breakdown
20%
Triboelectric Series
20%
Harvesting Circuit
20%
Flexible Thermoelectric Material
20%
Material Transformation
20%
Energy Conversion Device
20%
Voltage-current
20%
New Theoretical Model
20%
Bio-piezoelectric
20%
Engineering
Energy Harvesting
100%
Energy Systems
100%
Output Power
66%
Piezoelectric
66%
Wearable Sensor
66%
Thermoelectricity
66%
Low-Temperature
33%
Experimental Result
33%
Energy Conversion
33%
Potential Application
33%
Power Supply
33%
Experimental Platform
33%
Microelectronics
33%
Triboelectric Nanogenerators
33%
Output Voltage
33%
Ambient Environment
33%
Secondary Battery
33%
Active System
33%
Simulated Result
33%
Deformation Mode
33%
Photonic Devices
33%
Mode Fiber
33%
Situ Reduction
33%
Device Structure
33%
Contact Mode
33%
Charge Output
33%
Piezoelectric Generator
33%
Thermoelectric Materials
33%
Upper Limit
33%
Design Engineering
33%
Microclimate
33%
Physical Phenomena
33%
Charge Density
33%
Three Dimensional Printing
33%
Porosity
33%
Thermal Energy
33%
Material Science
Piezoelectricity
100%
Thermoelectrics
66%
Materials Property
66%
Wearable Sensor
66%
Three Dimensional Printing
33%
Optical Device
33%
Thermoelectric Materials
33%
Secondary Battery
33%
Electronic Circuit
33%
Density
33%
Functional Material
33%
Physics
Energy Harvesting
100%
Piezoelectricity
100%
Thermoelectric Generator
66%
Theoretical Model
33%
Thermoelectric Material
33%
Optical Device
33%
Physics
33%
Physical Phenomena
33%
Property of Materials
33%
Gas Ionization
33%
Three Dimensional Printing
33%