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Halocarbons in the environment: Estimates of thermodynamic properties for aqueous chloroethylene species and their stabilities in natural settings
Johnson R. Haas,
Everett L. Shock
Research output
:
Contribution to journal
›
Article
›
peer-review
28
Scopus citations
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Dive into the research topics of 'Halocarbons in the environment: Estimates of thermodynamic properties for aqueous chloroethylene species and their stabilities in natural settings'. Together they form a unique fingerprint.
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Earth & Environmental Sciences
chloroethylene
100%
halocarbon
77%
thermodynamic property
66%
ethylene
21%
thermodynamics
17%
tetrachloroethylene
13%
dechlorination
13%
pyrrhotite
12%
trichloroethylene
12%
mineral
12%
gas
11%
magnetite
10%
denitrification
9%
pyrite
9%
solubility
9%
chloride
8%
temperature
8%
sulfate
7%
iron
7%
degradation
7%
ion
7%
calculation
5%
parameter
3%
Chemical Compounds
Thermodynamic Property
49%
Mineral
44%
Reductive Dechlorination
40%
Denitrification
36%
Thermodynamics
34%
Pyrite
33%
Environment
31%
Hematite
30%
Reduction Potential
28%
Magnetite
28%
Reduction
25%
Chloride
16%
Pressure
16%
Gas
14%
Ion
10%