Engineering & Materials Science
Nanoparticles
100%
Palladium
83%
Magnetic nanoparticles
80%
Catalysts
60%
Carbonylation
50%
Polyetherimides
48%
Emulsions
40%
Silica
36%
Catalysis
33%
Rhodium
32%
Ruthenium
31%
Condensation
28%
Oils
28%
Lipids
28%
Catalyst supports
27%
Magnetic fields
27%
Polyethylene glycols
27%
Ethylene
26%
Hydroformylation
25%
Ionic liquids
21%
Surface active agents
21%
Sonication
18%
Monomers
16%
High resolution electron microscopy
16%
High resolution transmission electron microscopy
15%
Polymers
15%
Catalyst activity
15%
Ligands
14%
X ray powder diffraction
14%
Unsaturated compounds
14%
Chemical Compounds
Palladium Nanoparticle
73%
Magnetic Nanoparticle
63%
Catalyst
58%
Microcapsule
46%
Magnetic Field
36%
Hydroaminomethylation
35%
Rhodium Carbene
35%
Nanoparticle
31%
Carbonylation
31%
Emulsion
30%
Immobilized Catalyst
28%
Hyperbranched Polymer
26%
Magnetite
25%
Catalysis
19%
Hydrogenation
19%
Surfactant
18%
Hydrogel
16%
Poly(ethylene Glycol)
16%
Condensation
16%
Magnetite Nanoparticle
16%
Application
16%
Ionic Liquid
15%
Bromide
15%
Mixture
15%
Lipid
14%
Phosphine
14%
Noyori Hydrogenation
13%
Neutralization Reaction
13%
Purity
13%
Gel
13%
Physics & Astronomy
catalysts
66%
nanoparticles
65%
rhodium
55%
carbenes
33%
dendrimers
28%
magnetite
27%
immobilization
26%
ruthenium
25%
ligands
24%
synthesis
22%
palladium
22%
phosphines
21%
ethylene
16%
silicon dioxide
16%
carboxylic acids
15%
selectivity
14%
gels
14%
crack opening displacement
14%
alkenes
13%
sorption
12%
amines
12%
hydrogenation
11%
reactivity
10%
condensation
10%
monomers
10%