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Keyphrases
Lignin
100%
Molecular Oxygen
100%
Technical Lignin
100%
Enzymatic Oxidation
100%
Materials Application
100%
Chemical Oxidation
100%
Phenoxyl Radical
100%
Kraft Lignin
75%
Laccase
75%
Molecular Mass
75%
Soda Lignin
75%
Condensation
75%
Alkali
75%
Constant pH
75%
Alkaline Condition
50%
Negative Charge
50%
VOCs
50%
Catalytic Oxidation
50%
Alkaline Laccase
50%
Laccase Catalysis
50%
Pulp
25%
Oxidation Mechanism
25%
Chemical Analysis
25%
Phenolic Compounds
25%
Reaction Pathway
25%
Mechanistic Model
25%
Elevated Temperature
25%
Lignin Content
25%
Lignosulfonate
25%
Operating Conditions
25%
Water Solubility
25%
Polymerized
25%
Oxidation Method
25%
Superplasticizer
25%
Oxidation Parameters
25%
Glass Transition Temperature
25%
Composite Application
25%
PH Dependence
25%
Phenolic Groups
25%
Plasticizing
25%
Lignin Characterization
25%
Application Test
25%
Oxygen Delignification
25%
Laccase Enzyme
25%
Lignin Modification
25%
Concrete Application
25%
Modification Methods
25%
Chemical Applications
25%
Lignin Polymerization
25%
Lignin Functionalization
25%
Further Application
25%
Reaction Solution
25%
Low Molecular
25%
Alkali-catalyzed
25%
Lignin Oxidation
25%
PH Decrease
25%
Organic Hydroperoxides
25%
Odor Removal
25%
Homogeneous Polymerization
25%
Hydroperoxide Anion
25%
Via Coupling
25%
Superoxide
25%
Protonation Degree
25%
Oxidation by Oxygen
25%
Protonated Forms
25%
Ready-to-use Products
25%
Lignin-derived
25%
Engineering
Phenolics
100%
Molecular Mass
100%
Kraft Lignin
66%
Negative Charge
66%
Polymerization
66%
Alkaline Condition
66%
Lignosulfonate
33%
Elevated Temperature
33%
Potential Application
33%
Great Extent
33%
Delignification
33%
Mechanistic Model
33%
Ph Dependent
33%
Composite Application
33%
Protonation
33%
Oxygen (O2)
33%
Superplasticizer
33%
Rearranges
33%
Concrete Application
33%
INIS
applications
100%
oxidation
100%
lignin
100%
oxygen
100%
ph value
36%
phenoxy radicals
21%
solutions
15%
coupling
15%
sodium carbonates
15%
phenols
15%
comparative evaluations
10%
charges
10%
catalysis
10%
polymerization
10%
odor
10%
voc
10%
modifications
5%
enzymes
5%
data
5%
water
5%
substrates
5%
pulps
5%
reduction
5%
solubility
5%
removal
5%
chemical analysis
5%
plasticizers
5%
catalysts
5%
anions
5%
glass
5%
transition temperature
5%
delignification
5%
oxygen additions
5%
lead method
5%
Chemical Engineering
Molecular Oxygen
100%
Polymerization
100%
Superplasticizer
50%
Material Science
Lignin
100%
Materials Application
100%
Catalysis
10%
Polymerization
10%
Composite Material
5%
Glass Transition Temperature
5%
Superoxide
5%