Keyphrases
Compound Specific Sulfur Isotope Analysis
100%
Smackover Formation
100%
Thiadiamondoids
100%
Thermochemical Sulfate Reduction
52%
Benzothiophene
26%
Dibenzothiophene
15%
Pyrolysis Experiment
15%
Sulfate Reduction
10%
Elemental S
10%
Adamantane
10%
Sulfide
5%
Organic Matter
5%
Systems-based
5%
Reaction Rate
5%
Elemental Sulfur
5%
High Concentration
5%
Formation Mechanism
5%
Cage Structure
5%
Maturation Stage
5%
Diamond-like
5%
Organic Oxidation
5%
Sulfur Isotopes
5%
Thermal Maturation
5%
Source Rock
5%
Reservoir Conditions
5%
Reduced Sulfur Species
5%
Reliable Detection
5%
Hydrous Pyrolysis Experiment
5%
Petroleum
5%
Sulfate Minerals
5%
Isotopic Distribution
5%
Molar Concentration
5%
Calcium Sulfate
5%
Upper Jurassic
5%
Sulfurized
5%
Reduction Conditions
5%
Oxygenated Compounds
5%
High-temperature Reservoir
5%
Multiparameter Systems
5%
Molecular Proxies
5%
Chemistry
Sulfate
100%
Sulfur Isotope
100%
Benzothiophene
50%
Pyrolysis
30%
Dibenzothiophene
30%
Chemical Element
20%
Adamantane
20%
Phase Composition
10%
Phenol
10%
Elemental Sulfur
10%
Reduction
10%
Hydrous Pyrolysis
10%
Sulfate Mineral
10%
Earth and Planetary Sciences
United States of America
100%
Thermochemical Sulfate Reduction
100%
Sulfur Isotopes
100%
Pyrolysis
40%
Organic Matter
10%
Heavy Oil
10%
Source Rock
10%
Phenol
10%
Formation Mechanism
10%
Material Science
Oxidation Reaction
100%
Diamond
100%
Biological Material
100%
Agricultural and Biological Sciences
Sulfate
100%
Cage
60%
Benzothiophene
50%
Dibenzothiophene
30%
Alpha Oxidation
10%
Sulfate Mineral
10%
Chemical Engineering
Pyrolysis
100%
Phenol
33%
Sulfate Mineral
33%
Hydrous Pyrolysis
33%