Engineering & Materials Science
Catalysis
100%
Monomers
59%
Oxidants
53%
Catalysts
48%
Oligomers
37%
Epoxidation
35%
Polystyrenes
35%
Enantioselectivity
34%
Quinone
34%
Esters
33%
Molecular weight
31%
Salts
30%
Polyesters
26%
Fatty acids
25%
Carbonates
23%
Polymerization
23%
Silica
22%
Esterification
21%
Cycloaddition
20%
Acylation
19%
Depolymerization
19%
Glycerol
18%
Copolymerization
18%
Terpenes
18%
Polycarbonates
18%
Furfural
17%
Conversion efficiency
16%
Polymers
15%
Aldehydes
14%
Regioselectivity
14%
Catalyst supports
13%
Candida
12%
Nuclear magnetic resonance
12%
Polyamides
12%
Polycondensation
12%
Lipases
11%
Carbon dioxide
11%
Glass transition
11%
Discrete Fourier transforms
11%
Superconducting transition temperature
11%
Substrates
10%
Gels
10%
Macromolecules
10%
Packed beds
10%
Oxidation
9%
Catalyst activity
8%
Air
8%
Polyurethanes
8%
Atoms
7%
Thermodynamic properties
7%
Chemistry
N-Heterocyclic Carbene
54%
Flow
49%
Organocatalysis
39%
Monomer
38%
Polyester
34%
Catalyst
32%
Enantioselectivity
31%
Catalysis
28%
Quinone
27%
Epoxide
25%
5-Hydroxymethylfurfural
25%
Carbonate
24%
Oligomer
23%
Dialdehyde
21%
Umpolung
21%
Depolymerization
18%
Carbon Dioxide
18%
Isosorbide
18%
Reaction Yield
17%
Furfural
17%
Beta-Elemene
16%
Ring Opening Reaction
16%
Ester
15%
Superbase
14%
Step Growth Polymerization
14%
Esterification
13%
Biginelli Synthesis
13%
Hantzsch Reaction
13%
Glycerol
13%
Copolymerization
13%
Fatty Acid Ester
12%
Addition Polymerization
12%
Chemical Depolymerization
12%
Terpene
11%
Diamine
11%
Number Average Molar Mass
11%
Fatty Acid
11%
Michael Addition
10%
Weight
10%
Acylation
10%
Carbene
9%
Polyamide
9%
Heterogeneous Catalyst
9%
Chemical Transformation
9%
Column Like Crystal
9%
Oxidation Reaction
9%
Imine
9%
Glycine
9%
Cycloaddition
8%
Glass Transition Temperature
8%
Medicine & Life Sciences
Carbonates
29%
Epoxy Compounds
24%
Carbon Dioxide
21%
2-furoic acid
20%
glycidol
20%
polycarbonate
18%
Polyesters
17%
5-hydroxymethylfurfural
17%
Carbon Cycle
15%
Alkylation
13%
Iodides
13%
Ammonium Compounds
13%
Biomass
12%
Catalysis
12%
Coordination Complexes
11%
disalicylaldehyde ethylenediamine
10%
Carbon Footprint
9%
Salts
9%
Cats
8%
iron phthalocyanine
8%
Amides
8%
Kinetics
7%
Plastics
7%
Temperature
7%
Ligands
7%
Esters
7%
Polymers
6%
Pressure
6%
Metals
6%
Butylamines
6%
Furaldehyde
5%
Polymerization
5%
oxetane
5%
N,N-diisopropylethylamine
5%
Cyclic Ethers
5%