Medicine & Life Sciences
Rhodium
87%
Cyclization
58%
Alkynes
45%
Aldehydes
34%
Carbon
32%
Triazoles
29%
Isocyanates
27%
propadiene
24%
Ketones
23%
Ethers
19%
Palladium
17%
Alkenes
17%
Acids
16%
1,2,3-benzotriazin-4-one
16%
Nickel
15%
Alcohols
14%
Azides
14%
Aluminum
13%
Carbon Monoxide
13%
phosphine
13%
carbene
12%
Cyclopentanes
11%
hexacarbonyltungsten
11%
Esters
9%
Skeleton
9%
Cycloaddition Reaction
8%
Indium
8%
Alkylation
6%
phosphoric acid
6%
indole
6%
alpha-conhydrine
6%
3-butyn-2-ol
6%
diphenyl
6%
3,4-dihydroisoquinolin-1(2H)-one
6%
bis(pinacolato)diboron
6%
Iridium
6%
Oxindoles
6%
Formamides
5%
Cyclopropanes
5%
Styrenes
5%
propargyl alcohol
5%
dimethyl sulfide
5%
Boron
5%
Indans
5%
perfluorooctanesulfonamide
5%
Phosphines
5%
4-dimethylaminopyridine
5%
ketene
5%
cyanohydrin
5%
carveol
5%
Chemical Compounds
Alkyne
48%
Cyclization Reaction
41%
Aldehyde
34%
Catalyst
31%
Meerwein-Ponndorf-Verley Reduction
28%
Double Bond
26%
Isocyanate
26%
Silyl Enol Ether
23%
Alkene
22%
Alcohol
20%
Triazoles
17%
Azide
15%
Acid
15%
Allylation
15%
Tishchenko Reaction
14%
Oxindoles
12%
Oppenauer Oxidation
12%
Palladium
11%
Carbonyl Group
10%
Reductive Elimination Reaction
10%
Alkynylation
10%
Reaction Yield
9%
Phosphoric Acid
9%
Amount
9%
1,3-cycloaddition
9%
Ester
8%
Triple Bond
8%
Styrene
8%
Phosphine
8%
Imine
7%
Cyano Group
7%
Oxirane
7%
Cope Rearrangement
7%
Tungsten
7%
Extrusion
7%
Enaminone
6%
Enamide
6%
Cyanohydrin
6%
Catalysis
6%
Tris
6%
Engineering & Materials Science
Rhodium
100%
Allylation
35%
Alcohols
33%
Cyclization
29%
Catalysts
20%
Olefins
20%
Carbon
16%
Ethers
15%
Acids
15%
Nickel
12%
Isomers
11%
Circular Dichroism
10%
Palladium
9%
Thiophene
8%
Atoms
8%
Reagents
6%
Dimers
5%
Chemical activation
5%
Esters
5%
Tungsten
5%
Nucleophiles
5%
Derivatives
5%
Copper
5%
Ruthenium
5%
Amino alcohols
5%
Acylation
5%