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Biochemical pathway and degradation of phthalate ester isomers by bacteria
J. D. Gu
*
, J. Li, Y. Wang
*
Corresponding author for this work
Research output
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Contribution to journal
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Article
›
peer-review
64
Scopus citations
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Earth & Environmental Sciences
phthalate
78%
isomer
71%
ester
67%
degradation
43%
bacterium
42%
mangrove
24%
acid
15%
carbon
14%
microorganism
12%
sediment
12%
nature reserve
9%
cleavage
8%
energy
8%
energy source
8%
natural environment
7%
organic compound
7%
cooperation
7%
transform
6%
gene
6%
Chemical Compounds
Dimethyl Phthalate
97%
Phthalate Ester
94%
Compound Isomer
46%
Isophthalic Acid
28%
Strain
23%
Monomethyl Phthalate
21%
Aromatic Structure
19%
Energy
15%
Carbon Atom
15%
Phthalic Acid
14%
Ring Cleavage
14%
Ester
13%
Ring Opening Reaction
9%
Chemical Transformation
7%
Environment
6%
Engineering & Materials Science
Isomers
100%
Bacteria
75%
Esters
73%
Degradation
46%
Sediments
30%
Acids
22%
Microorganisms
20%
Carbon
19%
Organic compounds
11%
Genes
8%