Chemical Compounds
Chan-Lam Coupling
79%
Chemistry
67%
Anion
63%
Reaction Yield
57%
Ambient Reaction Temperature
51%
Suzuki-Miyaura Coupling
47%
Cross-Coupling Reaction
46%
Stille Coupling Reaction
44%
Boronic Acid
43%
Coupling Reaction
43%
Silyl
41%
Chemoselectivity
39%
Stille Reaction
39%
Dithiane
35%
Negishi Coupling
32%
Azide
31%
Oxidation Reaction
25%
Thioanisole
25%
Hiyama Reaction
25%
Bromoarene
24%
Brook Silaketone Rearrangement
24%
One Pot Reaction
24%
Kumada Cross-Coupling
23%
Band Gap
23%
Ligand
23%
Flow Chemistry Technique
22%
Oxygen Atom
21%
Stannane
20%
Additive
20%
Benzyne
20%
Piperidines
20%
Diels-Alder Cycloaddition
19%
Suzuki Reaction
18%
Genotoxic
18%
Thiophenes
18%
Regioselectivity
18%
Chloride
18%
Bromide
17%
Valence Band
17%
Cubic Crystal
16%
Solvent Evaporation
16%
Multicomponent Reaction
16%
Nucleophile
16%
Arylation
16%
Electron Particle
16%
Conduction Band
16%
Density of State
16%
Residence Time
16%
Triflate
15%
Triflyl Group
15%
Medicine & Life Sciences
Anions
100%
2-pyrone
78%
benzyne
70%
dithiane
51%
Cross Reactions
37%
stannane
35%
perferryl iron
32%
vinyl bromide
32%
Copper
31%
Piperidines
28%
Cycloaddition Reaction
27%
Furans
26%
Boronic Acids
25%
Thiophenes
25%
Lithium
25%
Palladium
23%
methylphenylsulfide
23%
Silanes
22%
piperidine
22%
Temperature
22%
Azides
21%
Electrons
20%
tedanolide
19%
13-deoxytedanolide
18%
Silicon
18%
Phenol
18%
Macrolides
17%
Density Functional Theory
17%
Ligands
17%
Hydroxyl Radical
17%
Protons
15%
Biological Products
15%
Oxidation-Reduction
14%
Potassium
13%
Libraries
13%
Salts
13%
Sodium
12%
Cyclization
11%
aniline
11%
Halogens
11%
Stereoisomerism
10%
Halogenation
10%
Alkylation
10%
Lactones
9%
Esters
7%
Oxygen
6%
Lewis Acids
5%
vinyl ether
5%
Amino Acids
5%
Engineering & Materials Science
Negative ions
83%
Palladium
50%
Electrons
42%
Oxidation-Reduction
40%
Derivatives
30%
Lithium
29%
TiO2 nanoparticles
28%
Potassium
28%
Iron
27%
Oxidation
26%
Pyridine
25%
Organic semiconductor materials
25%
Regioselectivity
23%
Energy gap
23%
Acids
23%
Conversion efficiency
20%
Open circuit voltage
18%
Protons
18%
Manganese
18%
Electron energy levels
17%
Ligands
17%
Electric properties
16%
Sodium
15%
Molecular orbitals
15%
Oxygen
15%
Molecules
15%
Atoms
14%
Amination
14%
Metal ions
14%
Ions
14%
Alkaloids
13%
Paramagnetic resonance
13%
Copper
12%
Substrates
12%
Silicon
12%
Fullerenes
11%
Epoxidation
11%
Cerium
11%
Chemical properties
11%
Ketones
11%
Carrier concentration
10%
Volatile organic compounds
10%
Nitrates
9%
Reagents
9%
Thiophene
8%
Nucleophiles
8%
Chemical activation
7%
Absorption spectra
7%
Semiconductor materials
6%
Catalysts
6%
