Chemistry
Silicon
100%
N-Heterocyclic Carbene
67%
Heterocyclic Compound
64%
Silyl
57%
formation
53%
Donor
43%
Density Functional Theory
41%
Transition Metal
35%
Imine
34%
Double Bond
32%
Aluminum
32%
Chemistry
29%
Carbon Dioxide
27%
Germanium
22%
Tin
22%
Carbene
21%
X-Ray Diffraction
19%
NMR Spectroscopy
18%
Lewis Acid
18%
Single Crystal X-Ray Diffraction
18%
Ambient Reaction Temperature
18%
Small Molecule Activation
17%
Phosphorus
16%
Borane
16%
Silicon Molecular Entity
15%
Coordination Compound
15%
Iron Complex
15%
Table Salt
14%
X-Ray Crystallography
13%
electronics
13%
Ethylene
13%
Base
13%
Electronic Property
12%
Hydrosilylation
12%
Main Group Chemistry
12%
Alkene
11%
Ammonia
11%
Cycloaddition
11%
Lithium
11%
pre-catalyst
11%
Reductive Elimination Reaction
11%
Hydrogen
10%
P4
10%
Lewis acidity
10%
Alkyne
10%
Main Group Element
10%
Spectroscopy
9%
Catalyst Activity
9%
Isomerization
9%
Ylide
9%
Keyphrases
Silylenes
70%
N-heterocyclic Carbenes
61%
Imino
38%
Silyliumylidenes
35%
Silyl
34%
Double Bond
30%
Disilene
28%
N-heterocyclic Imine
27%
Stannylene
23%
Small Molecule Activation
21%
Germylene
21%
Low-valent
21%
DFT Calculations
20%
Silicon Compounds
18%
Zwitterion
17%
Transition Metal Complexes
15%
Hydrides
14%
Catalytic Applications
14%
Donor Stabilized
14%
X-ray Diffraction (XRD) Analysis
14%
Bond Activation
14%
Imidazolin-2-imines
14%
N-heterocyclic
13%
Silene
13%
Phosphasilene
13%
Germanium
13%
Three-coordinate
13%
Room Temperature
12%
Main Group Chemistry
12%
Small Molecules
11%
Imine Ligands
11%
Dianhydride
11%
CO2 Reduction Reaction (CO2RR)
11%
Bis(silylene)
11%
Boron
11%
Cycloaddition
11%
Tert
11%
Anions
10%
Main Group Elements
10%
Hydrosilylation
10%
Carbenes
10%
Bidentate
10%
Ylidenes
10%
Silane
10%
Multiple Bonds
10%
X-ray Crystallography
10%
Carbon Dioxide
10%
Aryl
9%
Phosphinidenes
9%
Precatalyst
9%