Engineering & Materials Science
Catalysts
100%
Methanol
52%
Silicon
42%
Zeolites
42%
Copper
35%
Carbonates
28%
Silica
23%
Vapors
22%
Dehydrogenation
21%
Silica gel
21%
Polyethylene glycols
20%
Alcohols
18%
Polymers
17%
Hydrosilylation
17%
Alumina
16%
Oxidants
16%
Ethane
16%
Ethylene
16%
Olefins
15%
Liquids
15%
Alkali metals
15%
Crystals
12%
Ions
11%
Methylation
11%
Catalysis
11%
Acids
11%
Toluene
10%
Catalyst activity
10%
Adsorbents
10%
Zirconia
10%
Silanes
10%
Ethanol
10%
Potassium
9%
Metal halides
8%
Dehydration
8%
Temperature
8%
Palladium
8%
Thiophene
8%
Isomerization
8%
Catalyst selectivity
8%
Acetaldehyde
8%
Mesoporous materials
8%
Monomers
7%
Butadiene
7%
Hydrothermal synthesis
7%
Silicones
7%
Metal complexes
6%
Oxidation
6%
Metals
6%
Needles
6%
Chemical Compounds
Copper(I) Chloride
44%
Catalyst
44%
Methanol
29%
Elemental Germanium
27%
Chloride
26%
Zeolite
24%
Dimethyl Carbonate
20%
Hydrogen Chloride
18%
Alkene
15%
Oxidative Dehydrogenation
15%
Disproportionation
15%
Flow
14%
Poly(ethylene Glycol)
12%
Ethane
11%
Organosilicon Compound
11%
Amount
11%
Sphere
10%
Surface
10%
Hydrosilylation
9%
Gel
9%
Chlorobenzene
9%
Ethanol
8%
Mixture
8%
Allyl Chloride
8%
Alkali Metal
8%
Alkali Metal Salt
8%
Thiophene
7%
Halide
7%
Silane
7%
Alkyne
7%
Siloxane
7%
Meso Porosity
7%
Basic Solution
6%
Meerwein-Ponndorf-Verley Reduction
6%
Toluene
6%
Pore
6%
Adsorbent
6%
Tetradecane
6%
Alcohol
6%
Potassium Fluoride
5%
Liquid
5%
Crotonaldehyde
5%
Catalysis
5%
Acetaldehyde
5%
Calcium Hydroxide
5%
Reaction Yield
5%
Benzaldehydes
5%
Hydrocarbon
5%
Organic Reaction
5%
Physics & Astronomy
catalysts
43%
chlorides
34%
selectivity
32%
synthesis
28%
methyl alcohol
24%
silicon
20%
copper
19%
zeolites
17%
dehydrogenation
13%
alcohols
11%
alkenes
11%
ethane
10%
liquid phases
8%
glycols
8%
products
7%
germanium
7%
methyl chloride
7%
copper chlorides
7%
silica gel
7%
palladium
6%
polyethylenes
6%
hydrogen chlorides
6%
chlorobenzenes
6%
catalytic activity
5%
phenols
5%
pretreatment
5%
oxidation
5%
inhibitors
5%
polymers
5%
