INIS
tuning
100%
walls
100%
thickness
100%
polystyrene
100%
nanotubes
100%
molecular weight
55%
annealing
55%
polymers
33%
atmospheres
33%
dimensions
33%
nanostructures
22%
tubes
22%
comparative evaluations
22%
synthesis
22%
substrates
22%
confinement
22%
surface energy
22%
processing
11%
liquids
11%
surfaces
11%
interactions
11%
devices
11%
size
11%
applications
11%
shape
11%
control
11%
length
11%
filtration
11%
nanocomposites
11%
nanomaterials
11%
equilibrium
11%
catalysis
11%
drug delivery
11%
thermal properties
11%
calorimetry
11%
diffusion length
11%
Physics
Polystyrene
100%
Molecular Weight
100%
Planetary Atmosphere
75%
Dimensions
75%
Temperature
75%
Surface Energy
50%
Confinement
50%
Annealing
50%
Substrates
50%
Properties of Materials
25%
Thermodynamic Properties
25%
Nanoscale
25%
Nanomaterial
25%
Diffusivity
25%
Catalysis
25%
High Temperature
25%
Area
25%
Utilization
25%
Revisions
25%
Shapes
25%
Liquids
25%
Behavior
25%
Detection
25%
Drugs
25%
Diameters
25%
Spreading
25%
Material Science
Polystyrene
100%
Infiltration
100%
Nanotubes
100%
Temperature
100%
Polymer
75%
Protective Atmosphere
75%
Annealing
50%
Template-Directed Synthesis
50%
Nanocrystalline Material
50%
Surface Energy
50%
Characterization
25%
Nanocomposites
25%
Catalysis
25%
Differential Scanning Calorimetry
25%
Material
25%
Liquid
25%
Surface
25%
Mechanical Strength
25%
Materials Property
25%
Medical Device
25%
Thermal Property
25%
Chemistry
Nanotube
100%
Thickness
100%
Reaction Temperature
44%
Molecular Mass
33%
Dimension
33%
Nanomaterial
22%
Annealing
22%
Molecular Weight (Polymers)
22%
Interfacial Energy
22%
Template Synthesis
22%
Sample
22%
Length
22%
Catalysis
11%
Shape
11%
Diffusion
11%
Nanocomposite
11%
Liquid
11%
Surface
11%
Structure
11%
Application
11%
Equilibrium
11%
Particle Size
11%
Polymer
11%
Mechanical Strength
11%
Filtration
11%