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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(3/3)
Su, Ching-Yuan
(PI)
能源工程研究所
概覽
指紋
研究成果
(3)
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
5%
3D Graphene Structures
5%
3D Porosity
16%
Active Cavity
6%
Active Metal
5%
Active Sites
5%
Areal Capacitance
7%
Biological Tissue
5%
Boiling Heat Transfer
12%
Bubble Dynamics
6%
Bulk Material
5%
Capacitance
7%
Catalytic Mechanism
5%
Cavity Structure
6%
Cellular Monoliths
5%
Cm(III)
13%
Concentration of Production
5%
Condensation Heat Transfer
6%
Contact Angle
6%
Controlled Nanostructures
16%
Controlling Factors
5%
Copper Surface
6%
Cost-effective Production
5%
Costing Methods
7%
Doped Graphene
5%
Doping Concentration
5%
Doping Technology
5%
Dynamic Visualization
6%
Electrochemically Exfoliated Graphene
15%
Electrolyte
7%
Energy Density
7%
Energy Devices
16%
Energy Generation
5%
Energy Storage
43%
Energy-related Applications
5%
Enhanced Boiling
6%
Facile Approach
5%
Fluorinated Graphene
32%
Fuel Cell
5%
Functionalized Graphene
16%
Generation Device
5%
Good Electrical Conductivity
5%
Graphene
19%
Graphene Chemistry
5%
Graphene Coating
32%
Graphene Electrodes
24%
Graphene Flakes
14%
Graphene Interface
6%
Graphene Oxide Flakes
6%
Graphene Sheets
5%
Graphene Structure
10%
Graphene Suspensions
5%
Graphene-based Materials
14%
Graphene-carbon Nanotubes
32%
Heat Transfer
6%
Heat Transfer Enhancement
12%
Heat Transfer Performance
12%
Heteroatom
5%
Heteroatom Doping
10%
Hierarchical Electrode
32%
Hierarchical Porosity
5%
High Activity
5%
High Catalytic Activity
5%
High Energy Density
32%
High Specific Surface Area
5%
Hydrogen Evolution Reaction
5%
Hydrogen Evolution Reduction
5%
Hydrophobic Surface
6%
Ice Crystals
5%
Ice Physics
5%
Induced Dipoles
5%
Ion Transport
15%
Material Properties
10%
Metal-free Catalyst
5%
Micro-supercapacitors
32%
N-doped Graphene
32%
Nanocatalyst
32%
Nanopore
5%
Order of Magnitude
5%
Oxygen Reduction
5%
Oxygen Reduction Reaction
5%
Oxyhydrogen
5%
Performance Enhancement
32%
Pool Boiling
12%
Pool Boiling Enhancement
6%
Pool Boiling Heat Transfer
32%
Pore Architecture
5%
Pore Density
5%
Pore Structure
32%
Porosity
10%
Porous Graphene
5%
Power Density
11%
Production Approach
5%
R141b
6%
Rationally Designed
11%
Reaction Evolution
5%
Reduced Graphene Oxide
6%
Refrigerant
12%
Related Potentials
5%
Reliable Route
6%
Scalable Approaches
5%
Scalable Fabrication
5%
Solid State
32%
Spin Density
5%
Sub-micrometer
5%
Supercapacitor
10%
Superelastic
5%
Superelasticity
5%
Surface Morphology
6%
Surface Wettability
6%
Thermal Technologies
12%
Tissue Scaffolds
5%
Transport Efficiency
8%
Ultra-high Density
5%
Ultra-low Density
5%
Vaporization
6%
Water-based
6%
Working Fluid
6%
Material Science
Capacitance
43%
Carbon Nanotube
32%
Density
36%
Energy Density
37%
Graphene
100%
Holey Graphene
32%
Nanocrystalline Material
16%
Pore Structure
32%