Keyphrases
Drug Loading
100%
Cellulose Aerogel
100%
Aerogel
100%
Wound Dressing Applications
100%
Cellulose-chitosan
80%
Cytotoxicity
40%
Mechanical Properties
40%
Low Density
40%
High Porosity
40%
Large Specific Surface Area
40%
Stiffness
20%
Biocompatibility
20%
Wound Dressing
20%
Drug Release
20%
Fibroblast Cells
20%
Production Process
20%
Scalable Fabrication
20%
Antibacterial Properties
20%
Nanoporous
20%
In Vitro Assessment
20%
Chitosan
20%
Thermal Stability
20%
Biodegradability
20%
Escherichia Coli and Staphylococcus Aureus
20%
Wound Exudate
20%
Textile
20%
Biopolymers
20%
Inner Core
20%
Outer Shell
20%
Fibrous Structure
20%
Macroporous
20%
Cellulose
20%
Absorbable
20%
Time Production
20%
Hybrid Fiber
20%
Wet-spun
20%
Wound Dressing Material
20%
Textural Properties
20%
Bio-aerogels
20%
Supercritical CO2 Impregnation
20%
Supercritical CO2 Drying
20%
Low Antigenicity
20%
Renewability
20%
Pure Cellulose
20%
Drying Time
20%
Cm(III)
20%
INIS
applications
100%
drugs
100%
wounds
100%
gels
100%
cellulose
75%
fibers
50%
density
25%
toxicity
25%
porous materials
25%
carbon dioxide
25%
porosity
25%
mechanical properties
25%
drying
25%
specific surface area
25%
comparative evaluations
12%
assessments
12%
stiffness
12%
production
12%
uptake
12%
stability
12%
morphology
12%
in vitro
12%
water
12%
transformations
12%
hybrids
12%
shells
12%
escherichia coli
12%
fibroblasts
12%
textiles
12%
staphylococcus
12%
impregnation
12%
thermal properties
12%
chlorine fluorides
12%
Pharmacology, Toxicology and Pharmaceutical Science
Wound Dressings
100%
Aerogel
100%
Chitosan
62%
Ibuprofen
25%
Cytotoxicity
25%
Carbon Dioxide
25%
Antiinfective Agent
12%
Escherichia coli
12%
Wound
12%
Staphylococcus Aureus
12%
Drug Release
12%
Biopolymer
12%
Biocompatibility
12%
Thermostability
12%
Material Science
Aerogel
100%
Carbon Dioxide
25%
Density
25%
Biocompatibility
12%
Thermal Stability
12%
Biopolymer
12%
Fibroblast
12%
Chemical Engineering
Aerogel
100%
Chitosan
62%
Carbon Dioxide
25%