Second‐Generation N,O‐[2.2]Paracyclophane Ketimine Ligands for the Alkenylzinc Addition to Aliphatic and Aromatic Aldehydes: Scope and Limitations

Lauterwasser, Frank; Gall, Julia; Höfener, Sebastian; Bräse, Stefan

doi:10.1002/adsc.200606193

Cited by 41 publications

(7 citation statements)

References 68 publications

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“…After insoluble substance was filtered off through a bed of Celite, the solvent was evaporated. The residue was passed through a short silica gel column (hexane/AcOEt = 2/1) to afford the almost pure ( E )-2-buten-1-ol 5a (2.53 g). This material was used for the conversion to the corresponding benzoate 1a without further purification.…”

Section: Methodsmentioning

confidence: 99%

Stereoselective Synthesis of (2Z,4E)-2,4-Pentadien-1-ols via Sequential 1,4-Elimination Reaction and [1,2]-Wittig Rearrangement Starting from (E)-4-Alkoxy-2-butenyl Benzoates

et al. 2013

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The sequential 1,4-elimination reaction of (E)-4-alkoxy-2-butenyl benzoates and [1,2]-Wittig rearrangement gave (2Z,4E)-2,4-pentadien-1-ols stereoselectively. Z-Selective formation of intermediary vinyl ethers, whose stereochemistry was well elucidated by the “syn-effect”, was achieved by treatment of the 2-butenyl benzoates with KOH in the presence of Pd catalyst. The subsequent [1,2]-Wittg rearrangement by use of n-BuLi proceeded with retention of the stereochemistry of the intermediary vinyl ethers.

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Section: Methodsmentioning

confidence: 99%

Stereoselective Synthesis of (2Z,4E)-2,4-Pentadien-1-ols via Sequential 1,4-Elimination Reaction and [1,2]-Wittig Rearrangement Starting from (E)-4-Alkoxy-2-butenyl Benzoates

et al. 2013

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“…16 Principally, this could be achieved by forming p-arene metal complexes of, for example, the system 1. 17 We here want to present and discuss an alternative approach, namely the development of viable syntheses to the corresponding 2-hydroxyferrocene aldimines and their anions (2 -), the "ferrocene-saliminato" ligands.…”

Section: Methodsmentioning

confidence: 99%

Selective synthesis of the 2-hydroxyferrocene-aldimine enantiomers—extended planar chiral analogues of the “flat” salicylaldimine ligand family

et al. 2009

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Efficient selective synthetic pathways to the O-(tert-butyl)diphenylsilyl-protected 2-hydroxyferrocene carbaldehyde enantiomers [(p-S)- 12 and (p-R)- 12, each >99.5% ee] are described. The general synthesis starts from Kagan's ferrocene carbaldehyde acetal [(S,S)- 6], bearing the (2S,4S)-[4-(methoxymethyl)-1,3-dioxan-2-yl] chiral auxiliary. The synthetic route to (p-S)- 12 involves a sequence of directed ortho-lithiation/iodination, followed by acetoxylation (Cu2O/acetic acid), saponification and protection by the TBDPS silyl-protective group. Acid-catalyzed hydrolysis of the chiral acetal then gave the O-TBDPS-protected (p-S)-configurated hydroxyferrocene carbaldehyde enantiomer in an overall yield of 76% over 4 steps. The (p-R)- 12 enantiomer was prepared by a similar route starting from (S,S)- 6 using the -SiMe3 group as a reversible blocking group to direct the required functionalization to the (p-R)-series. A total of six steps furnished (p-R)- 12 in a combined yield of 27%. The aldehyde enantiomers of 12 were used for the synthesis of the corresponding N-2,6-diisopropylphenyl-imines. Subsequent deprotection gave the new ferrocene-salimine ligands 2-hydroxy-[N-(2,6-diisopropylphenyl)iminomethyl]-ferrocene (p-S)- 2a and (p-R)- 2a, respectively. We also synthesized the (p-S)-enantiomers of the corresponding N-mesityl and N-pentafluorophenyl aldimine derivatives [(p-S)- 2b, (p-S)- 2c].

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“…The diastereomers of compound 2 were synthesized over five steps using the methods of ref . In previous studies, , we used X-ray analysis to correlate the absolute configuration of ligand 2 to the absolute configuration of the product of a catalytic reaction. All CD measurements were performed using a JASCO J-815-150S CD spectrometer.…”

Section: Methodsmentioning

confidence: 99%

Chiral Cooperativity and Solvent-Induced Tautomerism Effects in Electronic Circular Dichroism Spectra of [2.2]Paracyclophane Ketimines

Warnke

Bräse

et al. 2009

J. Phys. Chem. A

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[2.2]Paracyclophanes with chiral ketimine side chains constitute a class of highly versatile and enantioselective ligands for catalytic carbon-carbon bond forming reactions. Proper matching of the side chain and [2.2]paracyclophane configurations induces chiral cooperativity, which is key to high selectivities. Here we show that the absolute configuration of both chirotropic elements may be fully resolved by CD spectroscopy and time-dependent density functional calculations. Different ketimine side chain conformations of the diastereomers perturb the planar chiral [2.2]paracyclophane chromophore. This leads to characteristic changes in the measured CD spectra and the specific rotation allowing for the simultaneous assignment of the absolute configuration of both chiral elements. Our results give rise to a simple rule relating sign and magnitude of the specific rotation and the first band of the CD spectra to the absolute configuration of both chiral elements. We infer a tautomeric equilibrium between an ortho-hydroquinone-imine and an ortho-quinone-enamine from strong solvatochromism observed in the CD spectra.

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Second‐Generation N,O‐[2.2]Paracyclophane Ketimine Ligands for the Alkenylzinc Addition to Aliphatic and Aromatic Aldehydes: Scope and Limitations

Cited by 41 publications

References 68 publications

Stereoselective Synthesis of (2Z,4E)-2,4-Pentadien-1-ols via Sequential 1,4-Elimination Reaction and [1,2]-Wittig Rearrangement Starting from (E)-4-Alkoxy-2-butenyl Benzoates

Stereoselective Synthesis of (2Z,4E)-2,4-Pentadien-1-ols via Sequential 1,4-Elimination Reaction and [1,2]-Wittig Rearrangement Starting from (E)-4-Alkoxy-2-butenyl Benzoates

Selective synthesis of the 2-hydroxyferrocene-aldimine enantiomers—extended planar chiral analogues of the “flat” salicylaldimine ligand family

Chiral Cooperativity and Solvent-Induced Tautomerism Effects in Electronic Circular Dichroism Spectra of [2.2]Paracyclophane Ketimines

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