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質子傳輸型固態氧化物燃料電池陽極材料開發與應用研究(3/3)
Tseng, Chung-Jen
(PI)
機械工程學系
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Keyphrases
Anode Material
100%
Sofc
100%
Cell Performance
100%
Anode-supported Cell
80%
Bimetallic Alloy
60%
Syngas
60%
NiFe
40%
Alloy Anode
40%
Proton-conducting Solid Oxide Fuel Cells
40%
High-capacity Anode
40%
Catalytic Activity
40%
Ceramic Electrolyte
40%
Poor Stability
40%
Ohmic Resistance
20%
Performance Test
20%
Material Properties
20%
Chemical Stability
20%
Electrolyte-supported Cell
20%
AC Impedance Method
20%
Carbon Deposition
20%
Volume Expansion
20%
Ceramic Structure
20%
Phase Change
20%
Proton Conductivity
20%
Cathode-supported Cell
20%
Focused Ion Beam Scanning Electron Microscopy (FIB-SEM)
20%
Gas Transport
20%
Alloy Materials
20%
Practical Operation
20%
Perovskite Ceramics
20%
Oxide Electrolyte
20%
Thermal Expansion
20%
Mechanical Strength
20%
Chemical Properties
20%
Mechanical Properties
20%
Good Stability
20%
Half-cell
20%
Delamination
20%
Physical Properties
20%
Microstructure
20%
Impedance Spectroscopy
20%
FeCo
20%
Nickel Oxide
20%
Microstructure Properties
20%
Transport Channel
20%
3D Reconstruction
20%
Thermal Cycling
20%
Iron-nickel Alloy
20%
Oxidation Reaction
20%
Metallic Catalyst
20%
Anode Alloy
20%
Porous Anode
20%
First Year
20%
Nickel-cobalt Alloy
20%
High Oxidation Resistance
20%
Nickel-cobalt
20%
Protonic Conductor
20%
Three-phase Boundary
20%
Engineering
Cell Performance
100%
Syngas
75%
Anode Alloy
75%
Proton Conducting Solid Oxide Fuel Cell
50%
Ceramic Electrolyte
50%
Enzymatic Activity
50%
Porosity
50%
Ohmic Resistance
25%
Fuel Cell Performance
25%
Proton Conductivity
25%
Solid Oxide Fuel Cell
25%
Main Reason
25%
Half Cell
25%
Performance Test
25%
Alloying
25%
Phase Boundary
25%
Carbon Deposition
25%
Oxidation Resistance
25%
Iron
25%
Delamination
25%
Material Science
Anode
100%
Anode Material
100%
Oxide Compound
27%
Synthesis Gas
27%
Catalyst Activity
18%
Density
9%
Physical Property
9%
Alloying
9%
Dielectric Spectroscopy
9%
Focused Ion Beam
9%
Cobalt-Nickel Alloys
9%
Cathode
9%
Chemical Property
9%
Conductor
9%
Cobalt
9%
Thermal Cycling
9%
Scanning Electron Microscopy
9%
Thermal Expansion
9%
Hydrogen Fuels
9%
Oxidation Resistance
9%
Phase Interface
9%
Materials Property
9%
Delamination
9%