Engineering & Materials Science
Acids
65%
Activation energy
14%
Acylation
22%
Adsorption
24%
Aerosols
11%
Alkaline earth metals
13%
Biofuels
30%
Biomass
81%
Carbohydrates
17%
Carbon
27%
Carboxylic acids
10%
Catalysis
33%
Catalyst selectivity
18%
Catalysts
77%
Cellulose
76%
Chemical activation
11%
Cycloaddition
42%
Cyclodextrins
11%
Decomposition
10%
Dehydration
44%
Density functional theory
15%
Ethers
11%
Ethylene
35%
Feedstocks
18%
Formic acid
16%
Furfural
12%
Gases
12%
Glucose
29%
Hydrogen
11%
Hydrogenation
12%
Isomerization
14%
Isoprene
11%
Lignin
13%
Lignocellulosic biomass
15%
Liquids
12%
Mass transfer
18%
Molecules
21%
Monomers
14%
Nanosheets
15%
Oils
19%
Olefins
13%
Oxidation
20%
Phosphorus
14%
Pyrolysis
78%
Reaction rates
11%
Steam
10%
Synthesis gas
14%
Temperature
17%
Xylene
45%
Zeolites
100%
Chemical Compounds
2,5-Dimethylfuran
30%
2,5-hexanedione
14%
2-Methylfuran
13%
Adsorption
9%
Aerosol
9%
Biofuel
30%
Boiling
10%
Carbohydrate
9%
Carbon Atom
11%
Catalyst
37%
Crystalline Cellulose
10%
Decomposition
9%
Dehydration
33%
Desorption
9%
Diels-Alder Cycloaddition
12%
Diels-Alder Reaction
11%
Diffusion
11%
Formic Acid
10%
Fuel
25%
Furan
39%
Furfural
9%
Gas
11%
Glucose
18%
Itaconic Acid
9%
Length
9%
Levoglucosan
26%
Lignin
12%
Liquid
9%
Mass Transfer
20%
Nanosheet
9%
Pore
10%
Pyrolysis
45%
Reaction Activation Energy
11%
Reaction Yield
17%
Residence Time
12%
Resonance
14%
Ring Opening Reaction
9%
Surface
20%
Surface Barrier
20%
Zeolite
64%
Earth & Environmental Sciences
acid
9%
biofuel
14%
biomass
32%
carbon
11%
catalysis
7%
catalyst
18%
cellulose
32%
dehydration
10%
economic analysis
7%
ethylene
11%
furan
17%
gas
6%
glucose
10%
hydrogen
7%
hydrolysis
8%
isoprene
5%
kinetics
8%
liquid
7%
particle
6%
price
6%
product
10%
pyrolysis
36%
reactor
12%
xylene
10%
zeolite
19%
