Keyphrases
Cellulose Nanofibrils
100%
TEMPO-oxidized Cellulose Nanofiber
100%
Biofuel Production
100%
Microalgae-based Biofuel
100%
Cyanobacteria
37%
Cellulose Nanofibril Hydrogels
37%
Green Algae
37%
Cellulose Nanofibril Films
25%
Ca2+
25%
Alginate
25%
H2 Production
25%
Polyvinyl Alcohol
12%
Plant-derived
12%
Immobilization
12%
Surface Charge
12%
Photosynthetic Activity
12%
Sustainable Production
12%
Quartz Crystal Microbalance with Dissipation (QCM-D)
12%
Surface Sensitivity
12%
Nanomaterials
12%
Complete Recovery
12%
Efficient Production
12%
Technology Platform
12%
Submerged Cultivation
12%
Sustainable Chemical Production
12%
Filamentous Cyanobacteria
12%
H2 Photoproduction
12%
Immobilization Mechanism
12%
Cultivation Conditions
12%
Entrapment
12%
Oxygenic
12%
Photosynthetic Microbes
12%
High Compatibility
12%
Photosynthetic Microorganisms
12%
Pore Size Tailoring
12%
Platform-Based
12%
Water Stability Performance
12%
INIS
production
100%
cellulose
100%
biofuels
100%
algae
55%
matrices
33%
hydrogels
33%
cyanobacteria
33%
surfaces
22%
films
22%
alginates
22%
performance
11%
control
11%
microorganisms
11%
water
11%
stability
11%
size
11%
cross-linking
11%
recovery
11%
monitoring
11%
charges
11%
nanomaterials
11%
solids
11%
capacity
11%
cultivation
11%
fabrication
11%
crystals
11%
quartz
11%
filaments
11%
compatibility
11%
microbalances
11%
polyvinyl alcohol
11%
photoproduction
11%
Chemical Engineering
Hydrogel
100%
Alginate
66%
Film
66%
Carbon Nanofibre
66%
Polyvinyl Alcohol
33%