INIS
cellulose
100%
copolymers
58%
adsorption
53%
methacrylates
48%
surfaces
47%
randomness
36%
affinity
34%
humans
32%
water
32%
particles
32%
methyl ether
30%
ethylene glycols
30%
antibodies
27%
passivation
26%
films
24%
filaments
22%
fibers
21%
benzophenone
21%
polymers
20%
architecture
20%
wood
20%
immunoglobulins
20%
proteins
20%
hemoglobin
19%
resonance
19%
plasmons
19%
detection
18%
ionic liquids
17%
sensitivity
16%
doped materials
16%
solids
16%
suspensions
16%
light scattering
16%
sensors
16%
polysaccharides
16%
immunoassay
16%
hybrids
16%
flocculation
16%
optical properties
16%
titanium oxides
16%
engineering
16%
control
16%
blocking
14%
modifications
14%
interactions
14%
reduction
11%
coupling
10%
Keyphrases
Nanocellulose
68%
Adsorption
48%
Block Copolymer
41%
Biointerface
41%
Poly(N,N-dimethylaminoethyl methacrylate)
36%
Cellulose Nanofibrils
36%
Random Copolymer
36%
Oligo(ethylene glycol) Methyl Ether Methacrylate
32%
TEMPO-oxidized Cellulose Nanofiber
26%
Hemoglobin
24%
Wet Strength
24%
Serum Immunoglobulin G
24%
Benzophenone
24%
Bioactivity
22%
Passivation
22%
Ionic Liquid
21%
Regenerated Cellulose
21%
Nanopaper
20%
TEMPO-oxidized CNF
20%
Surface Plasmon Resonance
19%
Antifouling
18%
Molecular Architecture
18%
Binding Strength
16%
Organic-inorganic Hybrid Film
16%
Binding Affinity
16%
Optical Properties
16%
Rutile
16%
TiO2 Nanoparticles
16%
Wood Sawdust
16%
Sawdust
16%
Bifunctional
16%
Particleboard
16%
Light Scattering
16%
Fusion Process
16%
Cannabinoid Detection
16%
Fluidic Channel
16%
Protein Binding Affinity
16%
Sensor-based
16%
Soluble Polysaccharides
16%
Paper-based Immunoassay
16%
Photoreactive
16%
Biosensing
16%
Interfacial Water
16%
Microfibrillated Cellulose
16%
Solid Sensor
16%
Flocculation
16%
Two Dimensional
16%
Bioactive
16%
Copolymer
15%
EDC-NHS
14%