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A model for enzymatic binding of pollutants in the soil
Jean Marc Bollag,
Wendy B. Bollag
Research output
:
Contribution to journal
›
Article
›
peer-review
20
Scopus citations
Overview
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Dive into the research topics of 'A model for enzymatic binding of pollutants in the soil'. Together they form a unique fingerprint.
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Medicine & Life Sciences
Soil Pollutants
100%
Humic Substances
80%
Phenols
63%
Monophenol Monooxygenase
59%
Environmental Pollutants
53%
Soil
51%
Oxidative Coupling
44%
Aniline Compounds
42%
Laccase
37%
Peroxidases
36%
Guaiacol
35%
ferulic acid
33%
Xenobiotics
25%
Amines
24%
Binding Sites
18%
Poisons
17%
Agriculture & Biology
humus
55%
soil pollution
55%
phenols
45%
pollutants
45%
cross-coupling reactions
40%
aromatic amines
32%
humic substances
31%
guaiacol
30%
copolymerization
29%
aniline
28%
monophenol monooxygenase
28%
humic acids
27%
peroxidases
27%
chemical reactions
26%
laccase
25%
ferulic acid
25%
xenobiotics
24%
catechol oxidase
24%
toxic substances
22%
toxicity
16%
Chemical Compounds
Humus
72%
Soil
39%
Environmental Pollutant
38%
Phenol
34%
Oxidative Coupling Reaction
32%
Guaiacol
30%
Ferulic Acid
28%
Xenobiotic Agent
27%
Environment
26%
Detoxification
26%
Toxic Substance
25%
Humic Acid
25%
Chemical Reactivity
24%
Aromatic Amine
24%
Coupling Reaction
21%
Peroxidase
21%
Aniline
19%
Copolymerization
19%
Monomer
13%
Engineering & Materials Science
Humic Substances
81%
Phenols
59%
Peroxidases
50%
Xenobiotics
43%
Detoxification
38%
Soils
36%
Aniline
36%
Chemical reactivity
36%
Copolymerization
34%
Amines
27%
Toxicity
27%
Monomers
27%
Acids
21%
Substrates
16%
Earth & Environmental Sciences
humus
34%
phenol
29%
pollutant
27%
chemical
23%
soil
20%
complex formation
19%
xenobiotics
18%
detoxification
17%
humic substance
17%
amine
16%
humic acid
15%
product
15%
toxicity
11%
substrate
10%
acid
9%
material
6%
effect
3%
Social Sciences
pollutant
53%
Toxic compounds
28%
efficiency
11%
migration
10%