Engineering & Materials Science
Iridium
100%
Isotopes
85%
Hydrogen
57%
Catalysts
40%
Catalysis
26%
Deuterium
26%
Chemical activation
24%
Labeling
22%
Tritium
20%
Sulfonamides
19%
Computer vision
19%
Molecules
18%
Cycloaddition
15%
Green Synthesis
14%
Oximes
14%
Reaction kinetics
13%
Nuclear magnetic resonance
13%
Drug Discovery
13%
Drug products
13%
Substrates
12%
Chirality
11%
Density functional theory
11%
Aldehydes
10%
Electrochemistry
10%
Degradation
10%
Oxidation-Reduction
9%
Colorimetric analysis
9%
Chemical plants
9%
Reagents
9%
Olefins
9%
Informatics
8%
Monitoring
8%
Binding energy
7%
Ergonomics
7%
Electrons
7%
Color
7%
Discrete Fourier transforms
7%
Disasters
7%
Acids
6%
Virtual reality
6%
Complexation
6%
Fires
6%
Radiation counters
5%
Electrodes
5%
Accidents
5%
Hazards
5%
Chemical Compounds
Catalyst
46%
Deuterium(.)
36%
Chemoselectivity
28%
N-Heterocyclic Carbene
28%
Drug
27%
Application
24%
Sulfonamide
24%
Catalysis
24%
Isotope
23%
Counterion
21%
Phosphine
20%
Safety
19%
Tritium
17%
Miyaura Borylation Reaction
15%
Accident
12%
Sumatriptan
12%
Benzoate Ester
11%
Valsartan
11%
Palladium
11%
Colorimetric Analysis
10%
Density Functional Theory
10%
Continuous Flow Technique
10%
Catalyst Activation
10%
Aromatic Ester
10%
Ligand
10%
Tetrazoles
10%
Pharmaceutical
10%
Isoxazoline
10%
Chemistry
9%
Free Energy of Binding
9%
Nucleophilic Aromatic Substitution
9%
Celecoxib
8%
Complexation
8%
Heck Reaction
8%
Mavacoxib
8%
Fire
8%
Electrochemical Reaction
7%
Sulfone
7%
Alkaline Condition
7%
Borate
7%
Solvent
7%
Indole
7%
Pyrrole
7%
Aldehyde
7%
Proton Transfer
6%
Black
6%
Label
6%
Boronate
6%
Occurrence in Nature
6%
Medicine & Life Sciences
Iridium
60%
Isotopes
39%
Hydrogen
39%
phosphine
36%
carbene
26%
tetrakis(3,5-bis(trifluoromethyl)phenyl)borate
18%
Deuterium
15%
Catalysis
13%
Drug Labeling
11%
Benzoates
10%
Ketones
9%
Sulfonamides
9%
Boronic Acids
8%
Ions
8%
Anions
8%
Esters
7%
Protons
7%
Nitro Compounds
6%
Theoretical Models
6%
Acids
5%