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Dealloyed nanoporous materials with interface-controlled behavior
Jörg Weissmüller,
Karl Sieradzki
Materials Science and Engineering
Mechanical and Aerospace Engineering
Engineering of Matter, Transport and Energy, School for (IAFSE-SEMTE)
Renewable Energy Electrochemistry, Center for (CREE)
Chemical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
93
Scopus citations
Overview
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Chemical Compounds
Nanoporosity
100%
Fluid Resistance
61%
Electric Potential
46%
Electrochemical Cell Potential
43%
Surface State
42%
Plastic Property
41%
Chemical Potential
39%
Surface
34%
Dimension
26%
Dissolution
26%
Sorption
25%
Alloy
24%
Strain
24%
Strength
22%
Nanomaterial
22%
Porosity
20%
Engineering & Materials Science
Dealloying
91%
Chemical potential
39%
Surface states
38%
Functional materials
37%
Nanostructures
32%
Ligaments
32%
Sorption
31%
Dissolution
28%
Plasticity
24%
Elasticity
24%
Fracture toughness
23%
Stiffness
18%
Fluids
17%
Electric potential
13%
Physics & Astronomy
ligaments
27%
sorption
23%
actuation
22%
fracture strength
21%
plastic properties
19%
dissolving
19%
stiffness
18%
elastic properties
16%
preparation
15%
fluids
12%
electric potential
11%