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結構可控性與異質改質石墨烯之功能性材料研究及其於儲能及產能元件之應用(2/3)
Su, Ching-Yuan
(PI)
能源工程研究所
概覽
指紋
研究成果
(2)
指紋
探索此專案觸及的研究主題。這些標籤是根據基礎獎勵/補助款而產生。共同形成了獨特的指紋。
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Keyphrases
3D Graphene
46%
Polymer-graphene Nanocomposites
40%
Interface Diffusion
40%
Interface Chemistry
40%
Chemistry Model
40%
Anti-corrosion
40%
Diffusion Model
40%
Graphene
40%
MoSx
40%
High Efficiency
40%
Hybrid Electrode
40%
Photocatalytic Hydrogen Generation
40%
Anticorrosive Coating
24%
Graphene-based Materials
22%
Graphene Flakes
21%
Functionalized Graphene
20%
Energy Devices
20%
3D Porosity
20%
Controlled Nanostructures
20%
Graphene Electrodes
20%
Hydrogen Evolution Reaction
19%
Electrochemically Exfoliated Graphene
16%
Epoxy
16%
Miscibility
16%
Material Properties
13%
Heteroatom Doping
13%
Supercapacitor
13%
Graphene Structure
13%
Energy Storage
13%
Active Sites
13%
Water Splitting
13%
Polymer Composite Coating
8%
Galvanic Coupling
8%
Graphene-loaded
8%
Polymer-graphene Composite
8%
Nanocomposite Synthesis
8%
Percolation Network
8%
Graphene Additive
8%
Pristine Polymer
8%
Steel Substrate
8%
Surface Functionality
8%
Diffusion Coefficient
8%
High Chemical Stability
8%
Graphene Loading
8%
Polymer Matrix
8%
Waterborne Polyurethane
8%
Diffusion Path
8%
Well-dispersed
8%
Alternative Means
8%
Dispersibility
8%
Interfacial Reaction
8%
Casting Solvent
8%
Oxide Graphene
8%
Copper Substrate
8%
Lower Corrosion Rate
8%
Eco-friendly Method
8%
Bilayer Coating
8%
Strong Interaction
8%
Conductive Network
8%
Corrosion Rate
8%
Reduced Graphene Oxide
8%
Graphene Oxide
8%
Polyurethane
8%
Galvanic Corrosion
8%
Accelerated Corrosion
8%
Tafel Slope
6%
High Porosity
6%
Catalytic Materials
6%
(NH4)2MoS4
6%
Two Dimensional
6%
Conductive Electrode
6%
Low Density
6%
Hydrogen Energy
6%
Freeze-drying Method
6%
Reaction in Water
6%
Noble Metals
6%
Thiosalts
6%
Number of Active Sites
6%
Electrocatalytic Performance
6%
Catalyst Utilization
6%
Supporting Electrode
6%
Graphene Scaffold
6%
Crystallinity
6%
Molybdenite
6%
Thermolysis
6%
High Surface Area
6%
Annealing Temperature
6%
Electrocatalytic
6%
3D Structure
6%
Hydrogen Production
6%
Planar Electrode
6%
Specific Surface Area
6%
Doping Technology
6%
Hierarchical Porosity
6%
Ultra-low Density
6%
Controlling Factors
6%
Superelastic
6%
Related Potentials
6%
Facile Approach
6%
Porous Graphene
6%
Production Approach
6%
Graphene Suspensions
6%
Ice Crystals
6%
High Activity
6%
Nanopore
6%
Catalytic Mechanism
6%
Induced Dipoles
6%
Scalable Fabrication
6%
Fuel Cell
6%
Biological Tissue
6%
Graphene Sheets
6%
Doping Concentration
6%
High Specific Surface Area
6%
Sub-micrometer
6%
Superelasticity
6%
Oxygen Reduction Reaction
6%
Bulk Material
6%
Active Metal
6%
Reaction Evolution
6%
3D Graphene Structures
6%
Oxyhydrogen
6%
Hydrogen Evolution Reduction
6%
High Catalytic Activity
6%
Oxygen Reduction
6%
Generation Device
6%
Cost-effective Production
6%
Doped Graphene
6%
Concentration of Production
6%
Heteroatom
6%
Ice Physics
6%
Energy-related Applications
6%
Graphene Chemistry
6%
Good Electrical Conductivity
6%
Energy Generation
6%
Scalable Approaches
6%
Cellular Monoliths
6%
Porosity
6%
Ultra-high Density
6%
Spin Density
6%
Tissue Scaffolds
6%
Metal-free Catalyst
6%
Material Science
Graphene
100%
Polymer Nanocomposites
40%
Hydrogen Evolution
23%
Water Splitting
20%
Nanostructure
20%
Density
15%
Annealing
10%
Platinum
10%
Molybdenum
10%
Corrosion
8%
Polyurethane
5%