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Rh2(S-1,2-NTTL)4: A Novel Rh2(S-PTTL)4 Analog With Lower Ligand Symmetry for Asymmetric Synthesis of Chiral Cyclopropylphosphonates
Frady Gouany,
Ashraf GHANEM
Science
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Article
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peer-review
17
Citations (Scopus)
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Keyphrases
Ligand Symmetry
100%
Rh2(S-PTTL)4
100%
Asymmetric Synthesis
100%
New Series
100%
Tert
50%
Enantioselectivity
50%
Dirhodium Complex
50%
S-amino Acids
50%
Enantiomeric Excess
50%
Phosphonates
50%
Donor-acceptor
50%
Tetracarboxylate
50%
Amino Acid Ligand
50%
Enantiomeric
50%
Leucine
50%
Carbenoids
50%
Enantioselective Synthesis
50%
Predictive Models
50%
Chemistry
Enantiomer
100%
Asymmetric Synthesis
100%
Donor
50%
Enantioselectivity
50%
Phosphonate
50%
Amino Acid
50%
Leucine
50%
Pharmacology, Toxicology and Pharmaceutical Science
Carbenoid
100%
Leucine
100%
Phosphonate
100%
Amino Acid
100%