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臺波(PL)國合計畫─矽/鍺基奈米化塊材之熱電傳輸機制研究(3/3)
Lee, Sheng-Wei
(PI)
材料科學與工程研究所
概覽
指紋
研究成果
(6)
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
Proton-conducting Solid Oxide Fuel Cells
80%
Thermoelectric Properties
65%
Nanowires
60%
Electrolyte
53%
Indium Telluride
40%
Graded Porosity
40%
Thermoelectric Device
40%
Polystyrene Nanospheres
40%
Cathode Design
40%
Polystyrene
40%
Silicon Nanowire Arrays
40%
Anode Functional Layer
40%
Nanofibrous
40%
Protonic Fuel Cell
40%
Fuel Cell
40%
Sintering Aid
40%
Anode Support
40%
Ni Anode
40%
Cell Performance
33%
In2Te3
30%
Triple Phase Boundary
26%
Ohmic Resistance
26%
Thermoelectric
25%
SiSn
20%
Ultralow Thermal Conductivity
20%
Hotspot Cooling
20%
Powder Sintering
20%
Powder Milling
20%
Ag Paste
20%
Silicon Nanowires (SiNWs)
20%
Polyimide
20%
Silicide
20%
ZT Value
20%
Thermoelectric Applications
20%
Mechanical Strength
20%
Waste Heat
20%
Time Enhancement
20%
Milling Process
20%
Sintering Process
20%
P-type
20%
Submillimeter
20%
Nanodevices
20%
Cost-effective Approach
20%
Proton
20%
NiO Addition
20%
Submillimeter Scale
20%
Thermoelectric Composites
20%
Porous Structure
18%
Nanoengineering
15%
Thermoelectric Materials
15%
Phonon Scattering
15%
Porosity
15%
Maximum Power Density
13%
Cathode Microstructure
13%
Porosity Gradient
13%
Catalytic Site
13%
Pore Former
13%
Screen-printed
13%
Microstructure Performance
13%
High Power Density
13%
Solid Oxide Fuel Cell
13%
Polarization Resistance
13%
Screen Printing
13%
Nanofibers
13%
Thermoelectric Behavior
10%
Microdevice
10%
Thermal Chemical Vapor Deposition
10%
Catalyst-assisted
10%
As-grown
10%
Growth Mechanism
10%
Vapor-liquid-solid
10%
Structural Characterization
10%
Energy Conversion
10%
Microscopy
10%
Recent Advances
10%
Phonon Thermal Conductivity
10%
Perovskite
6%
Low Polarization Resistance
6%
Fuel Cell Testing
6%
Open Circuit
6%
Fuel Cell Performance
6%
Proton Conductivity
6%
Impedance Characteristics
6%
Densification
6%
Electrochemical Impedance
6%
Hydrogen Oxidation Reaction
6%
Catalytic Activity
6%
Spin Coating
6%
Fully Dense
6%
Electrocatalytic
6%
Cathode Reaction
6%
Gas Transport Properties
6%
Electrolyte Microstructure
6%
Bulk Diffusion
6%
Grain Growth
6%
Sintering Mechanism
6%
Performance Enhancement
6%
Excellent Catalytic Performance
6%
Oxygen Vacancy
6%
Scattering Time
5%
Defect-induced
5%
Thermal Enhancement
5%
Electrical Conductivity
5%
Hot Pressing
5%
Spark Plasma Sintering Technique
5%
Feasible Route
5%
Flakes
5%
Chemical Composition
5%
Thermal Conductivity
5%
Thermal Energy Conversion
5%
X-ray Diffraction Measurement
5%
Figure of Merit ZT
5%
Material Science
Thermoelectrics
100%
Nanowire
80%
Oxide Compound
80%
Anode
80%
Sintering
48%
Cathode
45%
Silicon
40%
Indium
40%
Polystyrene
30%
Density
28%
Ultralow Thermal Conductivity
20%
Thermal Conductivity
20%
Thermoelectric Materials
16%
Nanosphere
15%
Oxygen Vacancy
13%
Spin Coating
13%
Electrolyte
13%
Electronic Circuit
13%
Microdevices
10%
Thermal Chemical Vapor Deposition
10%
Catalyst Activity
10%
Nanofiber
10%
Phase Interface
10%
Powder Milling
8%
Polyimide
8%
Device Type
8%
Nanodevice
8%
Silicide
8%
Strength of Materials
8%
Hot Pressing
6%
Electrical Resistivity
6%
X-Ray Diffraction
6%
Spark Plasma Sintering
6%
Diffraction Measurement
6%
Phase Composition
6%