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Diffusion enhancement in composites of nanotubes and porous structures
Simcha Srebnik
*
,
Moshe Sheintuch
*
Corresponding author for this work
Research output
:
Contribution to journal
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Article
›
peer-review
1
Scopus citations
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Mathematics
Nanotubes
100%
Enhancement
86%
Composite
64%
Carbon Nanotubes
55%
Composite Materials
45%
Electronic Properties
31%
Surface Potential
27%
Transport Properties
27%
Percolation Threshold
27%
Porous Materials
25%
Catalyst
23%
Mechanical Properties
23%
Material Properties
22%
Porosity
22%
Surface area
22%
Sieve
22%
Substrate
21%
Conductivity
19%
Tube
18%
Membrane
18%
Monte Carlo Simulation
16%
Simulation Study
13%
Simulation
11%
Performance
10%
Model
6%
Engineering & Materials Science
Nanotubes
93%
Fluxes
59%
Composite materials
42%
Carbon nanotubes
38%
Electronic properties
28%
Molecular sieves
26%
Surface potential
25%
Transport properties
23%
Porous materials
18%
Fillers
17%
Porosity
15%
Catalysts
15%
Membranes
15%
Materials properties
15%
Substrates
12%
Mechanical properties
11%
Physics & Astronomy
nanotubes
70%
carbon nanotubes
47%
composite materials
45%
augmentation
44%
absorbents
22%
porous materials
20%
fillers
18%
catalysts
17%
transport properties
14%
simulation
14%
membranes
13%
porosity
13%
tubes
13%
mechanical properties
12%
conductivity
12%
thresholds
11%
electronics
9%
performance
8%
Chemical Compounds
Nanotube
59%
Diffusion
45%
Porosity
42%
Composite Material
36%
Carbon Nanotube
26%
Surface Potential
20%
Monte Carlo Method
19%
Molecular Sieve
18%
Transport Property
17%
Filler
15%
Electronic Property
15%
Conductivity
12%
Molecular Cluster
12%
Surface Area
11%
Simulation
11%