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Miao Yu
Postdoc
,
Department of Energy Conversion and Storage
Solid State Electrochemistry
Phone
50249872
Email
miayu
dtu
dk
Website
http://energy.dtu.dk
Fysikvej
,
310, 143
2800
Kgs. Lyngby
Denmark
Overview
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Publications
(7)
Projects
(1)
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(3)
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Dive into the research topics where Miao Yu is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Keyphrases
Activation Mechanism
7%
Carbon Dioxide
15%
Cell Performance
11%
Cell Voltage
15%
Cell-to-cell
11%
CO2 Electrolysis
46%
Constant Current Test
7%
Cycling Operation
7%
Degradation Rate
31%
Doped CeO2
15%
Durability Testing
7%
Effective Solutions
7%
Effective Technology
7%
Electrocatalyst
23%
Electrochemical Durability
23%
Electrochemical Impedance Spectroscopy
7%
Electrochemical Performance
23%
Electrolysis
23%
Fuel Cell
15%
Fuel Electrode
34%
Gd-doped CeO2
7%
Impedance Distribution
7%
Infiltrated Electrode
23%
La0.6Sr0.4CoO3
23%
Low Degradation
15%
Microstructural Characterization
23%
Modified Electrode
23%
Nanocatalyst
7%
Nanoelectrocatalyst
23%
Nanoparticles
23%
Nanosize
15%
Ni-yttria Stabilized Zirconia
62%
Ohmic Resistance
7%
Operating Conditions
7%
Operation Mode
7%
Oxygen Electrode
15%
Planar-type
11%
Polarization Resistance
7%
Power Outage
7%
Relaxation Time Distribution
15%
Renewable Energy
7%
Reversible Operation
23%
Reversible Solid Oxide Cell (rSOC)
23%
Scaffold-based
7%
Single-mode Operation
7%
Solid Oxide Cells
31%
Solid Oxide Electrolysis Cell
22%
Term Operation
9%
Voltage Degradation
7%
Yttria-stabilized Zirconia
7%
Engineering
Activation Process
5%
Active Site
11%
Carbon Deposition
11%
Cell Performance
22%
Cell Voltage
13%
Cermet
26%
Degradation Rate
29%
Distributions of Relaxation Time
11%
Durables
27%
Effective Solution
7%
Electrocatalyst
46%
Electrolysis Cell
37%
Energy Carrier
9%
Energy Conversion
7%
Engineering
23%
Fits and Tolerances
11%
Fossil Fuel
11%
Fuel Cell
15%
Fuel Utilization
11%
Green Hydrogen
23%
Heat Treatment
11%
Hydrogen Production
23%
Infiltration Method
23%
Key Process Parameter
11%
Limitations
11%
Long-Term Durability
5%
Microstructure
14%
Mode Operation
7%
Nanocomposites
7%
Nanoparticles
23%
Ohmic Resistance
5%
Operation Mode
7%
Oxygen Electrode
13%
Power Outage
5%
Process Parameter
11%
Renewable Energy
13%
Renewable Energy Source
5%
Solid Oxide Electrolysis
41%
Solid Oxide Fuel Cells
11%
Time Analysis
5%
Yttria-Stabilised Zirconia
62%
Material Science
Carbon Dioxide
55%
Carbon Monoxide
7%
Cathode
23%
Cathode Material
13%
Cerium Oxide
7%
Cermet
14%
Coarsening
6%
Density
6%
Dielectric Spectroscopy
5%
Electrocatalysts
17%
Fossil Fuel
5%
Heat Treatment
10%
Metal Oxide
5%
Nanoparticle
23%
Oxide Compound
100%
Yttria Stabilized Zirconia
49%