Keyphrases
Hydrogenation
100%
Iron Complexes
100%
Catalytic Applications
100%
Cyclopentadienone
100%
Ligand Design
100%
Catalyst Design
66%
Excess Value
66%
Environmental Concern
33%
Carbonyl
33%
Structural Alterations
33%
Less Toxic
33%
Related Compounds
33%
Imines
33%
Active Sites
33%
Density Functional Calculations
33%
Enantioselectivity
33%
Iron Catalyst
33%
Acetophenone
33%
IR-MS
33%
Polarimetry
33%
Spatial Conformation
33%
Modular Catalyst
33%
High Enantiomeric Excess
33%
Enantiomeric Excess
33%
Chemical Transformation
33%
Asymmetric Design
33%
Modern Chemistry
33%
Asymmetric Catalysis
33%
New Catalysts
33%
INIS
applications
100%
design
100%
synthesis
100%
asymmetry
100%
ligands
100%
catalysts
100%
iron complexes
100%
hydrogenation
37%
values
25%
iron
25%
increasing
12%
tools
12%
demand
12%
toxicity
12%
exploration
12%
chemistry
12%
transformations
12%
nmr
12%
hydrogen
12%
symmetry
12%
catalysis
12%
carbonyls
12%
imines
12%
density functional method
12%
chirality
12%
acetophenone
12%
polarimetry
12%
Chemistry
Hydrogenation
100%
Catalyst Type
100%
Iron Complex
100%
Catalyst Design
66%
Enantiomer
66%
Chemistry
33%
NMR Spectroscopy
33%
Toxic
33%
Enantioselectivity
33%
Chemical Transformation
33%
Polarimetry
33%
Acetophenone
33%
Asymmetric Catalysis
33%
Density Functional Theory
33%
Imine
33%