INIS
cellulose
100%
nanocrystals
100%
textiles
100%
cotton
100%
surfaces
23%
extraction
23%
citric acid
23%
production
15%
environmental impacts
15%
life cycle assessment
15%
climates
7%
wood
7%
solutions
7%
performance
7%
nanoparticles
7%
optimization
7%
dispersions
7%
pulps
7%
hydrolysis
7%
stability
7%
size
7%
experimental data
7%
reduction
7%
distribution
7%
catalysts
7%
yields
7%
laboratories
7%
evaporation
7%
crystallization
7%
clothing
7%
Keyphrases
Cellulose Nanocrystals
100%
Post-consumer
100%
Cotton Textiles
100%
Textile
27%
Citric Acid
27%
Cellulose
18%
Environmental Impact
18%
Life Cycle Assessment
18%
Nanoparticles
9%
Mechanical Treatment
9%
Fibrillated
9%
Surface Functionalization
9%
Carboxyl Group
9%
Thermal Stability
9%
Clothing
9%
Group Content
9%
Cotton
9%
Climate Change Impacts
9%
Wood Pulp
9%
Crystallization
9%
Environmental Performance
9%
Nanocrystal Surface
9%
Environmental Burden
9%
High Crystallinity
9%
Needle-like
9%
Esterified
9%
Catalyst-free
9%
Microfluidizer
9%
DFT Calculations
9%
Surface Groups
9%
Cotton Fabric
9%
Diester
9%
Cotton-like
9%
H2SO4 Hydrolysis
9%
Engineering
Cellulose Nanocrystals
100%
Life Cycle Assessment
18%
Environmental Impact
18%
Proof-of-Concept
9%
Mechanical Treatment
9%
Early Stage
9%
Surface Functionalisation
9%
Final Product
9%
Nanoparticles
9%
Environmental Performance
9%
Crystallinity
9%
Surface Group
9%
Isolation Method
9%
Discrete Fourier Transform
9%
Cotton Fabric
9%
Material Science
Cellulose Nanocrystals
100%
Surface (Surface Science)
18%
Thermal Stability
9%
Surface Functionalization
9%
Nanoparticle
9%
Feedstock
9%
Cotton Fabric
9%
Enzymatic Hydrolysis
9%
Chemical Engineering
Citric Acid
100%
Nanoparticle
33%