INIS
water vapor
100%
films
100%
adsorption
100%
plant cells
100%
cell wall
100%
polysaccharides
100%
mimic
100%
cellulose
87%
uptake
62%
nanocrystals
37%
water
25%
biomimetics
25%
layers
12%
interfaces
12%
hemicellulose
12%
lignin
12%
adhesion
12%
thin films
12%
matrices
12%
swelling
12%
ellipsometry
12%
biological materials
12%
surface cleaning
12%
Keyphrases
Water Vapor Adsorption
100%
Polysaccharide-based Films
100%
Plant Cell Wall
100%
Cellulose Nanocrystals
50%
Water Vapour Uptake
50%
Crystalline-amorphous
50%
Cell Wall
33%
Microcrystalline Cellulose
33%
Water Uptake
33%
Cellulose Nanofibrils
16%
Hemicellulose
16%
Lignin
16%
Deposition Layer
16%
Cellulose Film
16%
Ultrathin
16%
Technology-based
16%
Quartz Crystal Microbalance with Dissipation (QCM-D)
16%
Spectroscopic Ellipsometry
16%
Surface Adhesion
16%
Regenerated Cellulose
16%
Hierarchical Structure
16%
Semi-crystalline
16%
Biomimetic Approach
16%
Specific Properties
16%
Biological Materials
16%
Uptake Behavior
16%
Self-cleaning Surfaces
16%
Amorphous Interface
16%
Trimethylsilyl Cellulose
16%
Ultra-strong
16%
Biomimetic Research
16%
Cell Wall Model
16%
Ultrathin Films
16%
Controlled Adhesion
16%
Two-layered Systems
16%
Material Science
Film
100%
Water Vapor
100%
Cellulose Nanocrystals
60%
Cellulose Films
20%
Composite Material
20%
Lignin
20%
Biomaterial
20%
Surface Cleaning
20%
Ultrathin Film
20%
Chemical Engineering
Film
100%
Polysaccharide
100%
Biomimetics
66%
Spectroscopic Ellipsometry
33%