Engineering
Wearable Sensor
100%
Reactant
100%
Mixing Region
100%
Microfluidic Fuel Cell
100%
Microbial
50%
Convective
50%
Chip Device
50%
Laminar Flows
50%
Flow Configuration
50%
Biofuel
50%
Porosity
50%
Review Article
50%
Liquidliquid Interface
50%
Microfluidic Fuel Cell Technology
50%
Borohydride
50%
Power Density
50%
Design Consideration
50%
Hydrophilicity
50%
Cell Performance
50%
Individual Cell
50%
Capillarity
50%
Fabrication Method
50%
Fuel Cell Technology
50%
Diffusive Mixing
50%
Keyphrases
Prospective Review
100%
PMFC
100%
Microfluidic Fuel Cell
100%
Wearable Devices
50%
Fuel Cell Technology
50%
Mixing Region
50%
Paper Substrate
50%
Individual Cells
25%
Convective Mixing
25%
Absorbent Pads
25%
Point-of-care Testing
25%
Hydrogen Peroxide
25%
Intrinsic Attributes
25%
Paper Microfluidics
25%
Diffusive Mixing
25%
Flow Configuration
25%
Porosity
25%
Two-stream
25%
Formate
25%
Cell Performance
25%
Fuel Performance
25%
Hydrophilicity
25%
Hydrocarbons
25%
Hydrazine
25%
Device Sensors
25%
Microfluidic Flow
25%
On-chip Devices
25%
Performance Achievement
25%
Capillarity
25%
Biofuel
25%
Point-of-care Diagnostics
25%
Power Density
25%
Borohydride
25%
Ionic Conduction
25%
Formic Acid
25%
Co-laminar Flow
25%
Design Considerations
25%
Working Voltage
25%
Fabrication Methods
25%
Pseudomembrane
25%
Material Science
Density
100%
Laminar Flows
100%
Biofuel
100%
Hydrogen Peroxide
100%
Capillarity
100%
Chemical Engineering
Hydrogen Peroxide
100%
Formic Acid
100%