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石墨烯表面之凝結及沸騰熱傳性能增強研究(3/3)
Yang, Chien-Yuh
(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
Graphene
78%
Fluorinated Graphene
66%
Graphene Composites
33%
High Energy Density
33%
Lithium-ion Cell
33%
Covalent Bonding
33%
Composite Anode
33%
Si-N
33%
Ultra-strong
33%
Electrochemical Conversion
33%
Heteroatom
33%
Microball
33%
Graphene Coating
33%
In Situ
33%
Adhesion
33%
Pool Boiling Heat Transfer
33%
Electrophoretic Deposition
25%
Weak Adhesion
16%
2D Materials
16%
Graphene Sheets
16%
Contact Angle
15%
Pool Boiling
13%
Thermal Technologies
13%
Lithium-ion Battery
13%
Heat Transfer Performance
13%
Boiling Heat Transfer
13%
Heat Transfer Enhancement
13%
Refrigerant
13%
Versatile Applications
8%
Metal Foil
8%
Covalent Bond
8%
Perfluorosulfonic Acid
8%
Van Der Waals Force
8%
Functional Coatings
8%
Copper Foil
8%
Robust Film
8%
Covalently Bonded
8%
Functional Composites
8%
High Mechanical Strength
8%
Dissolved Cu
8%
Hydrophobicity
8%
High Chemical Stability
8%
Applied Voltage
8%
Deposited Film
8%
In Situ Formation
8%
Layered Structure
8%
Cu(II) Ions
8%
Hydrothermal Reaction
8%
Shear Force
8%
High Thermal Stability
8%
Graphene Oxide
8%
Unique Properties
8%
High Capacity
6%
Anode Performance
6%
N Content
6%
Nitrogen Source
6%
Coulombic Efficiency
6%
Electrochemically Exfoliated Graphene
6%
Electric Conductivity
6%
Initial Discharge Capacity
6%
Delithiation
6%
Excellent Performance
6%
Discharge Capacity
6%
Graphene Oxide Flakes
6%
Silica Nanoparticles (SiNPs)
6%
Ion Mobility
6%
Facile Approach
6%
Lithiation
6%
High Stability
6%
Copper Surface
6%
Nitrogen-doped Graphene
6%
Reliable Route
6%
High Initial Capacity
6%
Working Fluid
6%
High Coulombic Efficiency
6%
Pool Boiling Enhancement
6%
Graphene Interface
6%
Enhanced Boiling
6%
N-graphene
6%
Vaporization
6%
Active Cavity
6%
NiMn
6%
Cavity Structure
6%
Scalable Approaches
6%
Dynamic Visualization
6%
Si-doped Graphene
6%
Full Cell
6%
Cost-effective Approach
6%
Graphene-based Materials
6%
Condensation Heat Transfer
6%
Graphene Flakes
6%
Bubble Dynamics
6%
Surface Morphology
6%
Water-based
6%
Heat Transfer
6%
Surface Wettability
6%
Reduced Graphene Oxide
6%
R141b
6%
Hydrophobic Surface
6%
Material Science
Graphene
100%
Anode
33%
Lithium Ion
33%
Energy Density
33%
Electrophoretic Deposition
14%
Film
14%
Lithium Ion Battery
13%
Two-Dimensional Material
9%
Contact Angle
7%
Nitrogen-Doped Graphene
6%
Electrical Conductivity
6%