Технические дисциплины и материаловедение
Iron
100%
Oxidation
85%
Carboxylic acids
56%
Catalysts
48%
Ligands
46%
Acids
45%
Epoxidation
42%
Benzene
39%
Paramagnetic resonance
38%
Hydroxylation
37%
Oxidants
33%
Hydrogen peroxide
26%
Toluene
22%
Stereoselectivity
21%
Rate constants
19%
Catalyst selectivity
18%
Oxygen
17%
Oxygenation
17%
Cyclohexane
16%
Catalysis
16%
Substrates
16%
Biomimetics
14%
Enantioselectivity
14%
Paraffins
14%
Electrons
13%
Regioselectivity
10%
Nitrobenzene
10%
Amines
9%
Catalytic oxidation
9%
Substitution reactions
9%
Acetic acid
8%
Atoms
8%
Anisotropy
6%
Temperature
5%
Pyridine
5%
Химические соединения
Aminopyridine
57%
2-Ethylhexanoic Acid
53%
Oxidation Reaction
43%
Carboxylic Acid
31%
Catalyst
24%
Aromatic Hydroxylation
24%
Benzene
22%
Hydrogen Peroxide
15%
Cycloalkane
15%
Oxygenation
15%
Ligand
15%
Spin State
13%
Toluene
13%
Chlorobenzene
13%
Acetophenone
13%
Cyclohexane
13%
Tris
12%
Stereoselectivity
11%
Electrophilic Aromatic Substitution
11%
Alkane
10%
Arene
9%
Alkylbenzene
9%
Rate Constant
9%
Gas Chromatography Mass Spectrometry (GCMS)
9%
Hydroperoxide
8%
Aromatic Structure
8%
Additive
8%
Turnover Number
8%
Catalysis
7%
Acid
7%
Amine
7%
Acetic Acid
6%
Enantioselectivity
6%
Anisotropy
5%
H Group
5%
EPR Spectroscopy
5%
Физика и астрономия
iron
44%
oxidation
40%
carboxylic acids
35%
ligands
28%
catalysts
27%
epoxidation
21%
benzene
19%
acids
19%
hydrogen peroxide
14%
catalysis
14%
toluene
13%
reactivity
10%
chlorobenzenes
8%
selectivity
8%
rings
8%
oxygenation
7%
research projects
7%
amines
6%
cyclohexane
6%
oxygen
5%