Engineering & Materials Science
Actinides
55%
Alcohols
11%
Aldehydes
20%
Amines
20%
Atoms
12%
Catalysis
14%
Catalyst activity
51%
Catalysts
81%
Chemical activation
12%
Copolymerization
18%
Deuterium
10%
Dimerization
26%
Dimers
26%
Esters
17%
Ethylene
27%
Hydrogenation
22%
Hydrosilylation
20%
Isomerization
23%
Ketones
10%
Ligands
79%
Lithium
10%
Membranes
12%
Metal complexes
12%
Metals
17%
Molecular structure
12%
Molecular weight
11%
Nuclear magnetic resonance spectroscopy
10%
Olefins
54%
Oligomerization
46%
Oligomers
10%
Organometallics
35%
Polymerization
100%
Polymers
20%
Polypropylenes
18%
Propylene
47%
Regioselectivity
10%
Ring opening polymerization
17%
Salts
11%
Silanes
10%
Silica
12%
Single crystals
12%
Temperature
14%
Thermodynamics
13%
Thorium
29%
Titanium
24%
Toluene
14%
Transition metals
14%
Uranium
28%
X ray diffraction
13%
Zirconium
10%
Physics & Astronomy
activation
16%
alcohols
16%
aldehydes
16%
alkenes
54%
alkynes
54%
amines
15%
catalysts
62%
catalytic activity
46%
characterization
21%
chemistry
9%
copolymerization
17%
dichlorides
11%
diffraction
12%
dimerization
22%
dimers
11%
esters
13%
ethylene
29%
hafnium
8%
hexenes
10%
hydrogenation
7%
imines
26%
insertion
12%
isomerization
12%
ketones
7%
kinetics
7%
ligands
72%
lithium
15%
metals
20%
metathesis
15%
molecular structure
10%
molecular weight
20%
nickel
13%
nuclear magnetic resonance
13%
polymerization
94%
polymers
16%
polypropylene
21%
products
16%
propylene
58%
reactivity
36%
rings
11%
salts
11%
silanes
12%
single crystals
7%
solid state
9%
synthesis
67%
thorium
16%
titanium
34%
transition metals
8%
uranium
14%
x rays
13%
Chemical Compounds
Actinoid Atom
71%
Addition Polymerization
9%
Alcohol
13%
Aldehyde
16%
Alkene
25%
Alkyne
49%
Amide
10%
Amine
13%
Carbodiimide
26%
Catalysis
14%
Catalyst
49%
Catalyst Property
13%
Chemical Transformation
14%
Chemistry
12%
Chemoselectivity
9%
Copolymerization
14%
Deuterium(.)
11%
Dimerization
22%
Epimerization
11%
Ester
13%
Hydroamination
22%
Hydroboration
18%
Hydrogenation
11%
Hydrosilylation
14%
Imine
11%
Isomerization
14%
Ligand
47%
Metal
18%
Metallocene
41%
Metathesis Reaction
18%
Mixture
12%
Molecular Structure
14%
Nitrile
9%
Norbornene
16%
Oligomerization
35%
Poly(propylene)
30%
Polymerization Reaction
94%
Propene
67%
Reaction Yield
24%
Ring Opening Polymerisation
14%
Silanes
11%
Single Crystal X-Ray Diffraction
11%
Solvent
9%
Thermodynamics
14%
Thorium
41%
Tishchenko Reaction
25%
Toluene
9%
Transition Element
12%
Weight
10%
X-Ray Diffraction
13%