INIS
catalysts
100%
phenols
74%
lignin
66%
pyrolysis
60%
production
57%
zeolites
54%
aromatic hydrocarbons
42%
oils
39%
hydrogen
35%
hydrogenation
34%
biomass
31%
hydrocarbons
25%
yields
24%
aromatics
24%
cresols
23%
metals
21%
zirconium oxides
21%
coke
20%
deactivation
20%
phenol
19%
cellulose
18%
wastes
16%
suppression
16%
fermentation
16%
saccharomyces cerevisiae
16%
ethanol
16%
performance
16%
dehydration
15%
values
14%
molasses
14%
growth
13%
efficiency
13%
acidity
13%
comparative evaluations
13%
ph value
12%
solids
12%
nanostructures
12%
simulation
11%
promoters
11%
density
11%
surfaces
10%
rhenium oxides
10%
olefins
10%
incubation
10%
carbon sources
10%
biofuels
10%
Keyphrases
Aromatic Hydrocarbons
42%
Lignin Phenols
38%
Hydrodeoxygenation
37%
Bio-oil
34%
Lignin
33%
Zeolite
33%
Phenolic Compounds
29%
Catalytic Hydrodeoxygenation
29%
ZSM-5
28%
Mild Hydrodeoxygenation
25%
PDCs
19%
Zirconium Dioxide
19%
In Situ Catalytic
18%
Coke Formation
18%
Hydrogenation
17%
Catalytic Co-pyrolysis
16%
Molasses
16%
Bifunctional
16%
Ethanol Production
16%
Hydrocarbon Production
16%
Transfer Hydrogenation
16%
Acid Sites
16%
Dehydration
16%
Guaiacol
15%
M-Cresol
15%
Mixed Catalysts
14%
Pyrolysis Oil
14%
Incubation Time
14%
Biomass Pyrolysis
12%
Zeolite Deactivation
12%
Saccharomyces Cerevisiae
12%
Cresol
12%
Catalytic Activity
12%
Catalytic Performance
11%
Acidity
11%
Catalyst Deactivation
11%
Response Surface Methodology
11%
Sugar Concentration
11%
Hydrocarbons
11%
Cellulose
10%
Catalytic Pyrolysis
10%
Biofuel
10%
Higher-value Hydrocarbons
10%
Rhenium Oxide
10%
Catalytic Hydrogenation
10%
Phenol Hydrogenation
10%
Olefins
10%
Cellulose Pyrolysis
10%
Decalin
10%
Hydrogen Source
10%