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Dealloying at high homologous temperature: Morphology diagrams
Ke Geng,
Karl Sieradzki
Renewable Energy Electrochemistry, Center for (CREE)
Engineering of Matter, Transport and Energy, School for (IAFSE-SEMTE)
Materials Science and Engineering
Mechanical and Aerospace Engineering
Chemical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
15
Scopus citations
Overview
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Engineering & Materials Science
Dealloying
100%
Temperature
23%
Titration
13%
Chemical analysis
12%
Dendrites (metallography)
11%
Gold
10%
Dissolution
10%
Activation energy
10%
Current density
9%
Mass transfer
8%
Physics & Astronomy
diagrams
45%
voids
25%
diffusivity
18%
titration
12%
dendrites
10%
dissolving
8%
gold
7%
solid state
7%
activation energy
7%
current density
6%
temperature
2%
Chemical Compounds
Alloy
30%
Percolation
17%
Lithiation
16%
Nanoporosity
13%
Mass Transfer
12%
Titration
11%
Dissolution
10%
Current Density
10%
Reaction Activation Energy
10%
Porosity
8%