Earth and Planetary Sciences
Polycyclic Aromatic Hydrocarbon
90%
Thermal Decomposition
22%
Reaction Kinetics
13%
Flame Temperature
13%
Site
13%
Growth
13%
Functional Group
9%
Particle
9%
Rate
9%
Addition
9%
Molecule
9%
Low Concentration
4%
Density Functional Theory
4%
Soot
4%
Nucleation
4%
Human Health
4%
Naphthalene
4%
Anthraquinone
4%
Phenol
4%
Chinese Continental Scientific Drilling Project
4%
Anthracene
4%
Dione
4%
Investigation
4%
Attention
4%
Increasing
4%
Prediction
4%
Temperature
4%
Comparison
4%
Surface Pressure
4%
Correlation
4%
Time
4%
Experiment
4%
Coefficient
4%
Content
4%
Decomposition
4%
Atom
4%
Chemistry
Pyrolysis
22%
Chemical Decomposition
22%
Chemistry
22%
Polycyclic Aromatic Hydrocarbon Formation
18%
Heterocyclic Compound
18%
Chemical Bond
13%
Chemical Reaction
13%
Potential Energy Surface
9%
Molecule
9%
Rate
9%
Toxic
4%
Decomposition
4%
Density Functional Theory
4%
Stirred Reactor
4%
Pharmacokinetics
4%
Concentration Profile
4%
Anthracene
4%
Energy Barrier
4%
Naphthalene
4%
Phenol
4%
9,10-anthraquinone
4%
Master Equation
4%
DFT-B3LYP Calculation
4%
Procedure
4%
Structure
4%
Pressure
4%
Reaction Temperature
4%
Time
4%
Atom
4%
Point Group T
4%
Jet
4%
CCSD
4%
Pharmacology, Toxicology and Pharmaceutical Science
Polycyclic Aromatic Hydrocarbon
100%
Benzene
9%
Functional Groups
9%
Toxicity
4%
Oxygen
4%
Phenol
4%
Anthraquinone
4%
Nucleation
4%
Naphthalene
4%
Benz(a)anthracene
4%
Physics
Thermal Decomposition
22%
Flame Temperature
13%
Sites
13%
Growth
13%
Particle
9%
Molecules
9%
Decomposition
4%
Density Functional Theory
4%
Pressure
4%
Increasing
4%
Temperature
4%
Atoms
4%
Coefficients
4%
Chemical Engineering
Benzene
9%
Functional Groups
9%
Naphthalene
4%
Anthracene
4%
Temperature
4%
Phenol
4%