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表面電漿共振助效太陽能轉換化學能:雙光分子反應(2/3)
Lee, Tai-Chou
(PI)
化學工程與材料工程學系
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Keyphrases
Two-photon
100%
AuNS
100%
Solar-to-fuel Conversion
100%
Material Properties
75%
Photocatalyst
75%
Reaction Kinetics
50%
Core-shell Structure
50%
Photoelectrochemical System
50%
Dielectric
50%
Reaction Systems
50%
Photoanode
25%
Conversion Efficiency
25%
Solar Hydrogen Production
25%
Reaction Stability
25%
Energy Carrier
25%
Problem-based
25%
Sustainable Development
25%
Cellular Structure
25%
Reactor Systems
25%
Leakage Current
25%
Tunable Surface
25%
Carrier Diffusion Length
25%
Photoelectrochemical Reaction
25%
Photogenerated Electrons
25%
Well-defined
25%
Dielectric Materials
25%
Gold-silver Nanoshells
25%
Wet Chemical Synthesis
25%
Thickness Effect
25%
Electron-hole Separation
25%
Hydrogen Production Rate
25%
Charge Separation
25%
Carrier Transport Properties
25%
Layered Architecture
25%
Band Position
25%
Photoactive Materials
25%
Conduction Type
25%
Photocathode
25%
Clean Energy
25%
Charge Carrier Transport
25%
Fuel Conversion Efficiency
25%
Charge Carriers
25%
Photoexcited Carriers
25%
Low Absorption
25%
Controllable Composition
25%
Water Splitting
25%
Tandem Cell
25%
Green Chemistry
25%
Material System
25%
Production Process
25%
Band Gap
25%
Electrolyte Interface
25%
Environmental Impact
25%
Energy Band
25%
Engineering
Dielectrics
100%
Photocatalysts
100%
Shells (Structures)
66%
Core-Shell
66%
Conversion Efficiency
66%
Charge Carrier
66%
Water Splitting
33%
Excited Electron
33%
Hydrogen Generation
33%
Hydrogen Production
33%
Sustainable Development
33%
Energy Band
33%
Energy Carrier
33%
Layered Architecture
33%
Carrier Diffusion Length
33%
Tandem Cell
33%
Reactor System
33%
Electrolyte Interface
33%
Clean Energy
33%
Critical Role
33%
Active Material
33%
Phase Composition
33%
Photocathode
33%
Band Gap
33%
Production Engineering
33%
Material Science
Photocatalysts
100%
Dielectric Material
100%
Materials Property
100%
Charge Carrier
66%
Silver
33%
Wet Chemical Synthesis
33%
Water Splitting
33%
Surface (Surface Science)
33%
Phase Composition
33%
Carrier Transport
33%
Composite Material
33%