Enantioselective oxidation of sulfides catalyzed by titanium complexes of 1,2‐diarylethane‐1,2‐diols: Effect of the aryl substitution

Superchi, Stefano; Scafato, Patrizia; Restaino, Lina; Rosini, Carlo

doi:10.1002/chir.20456

Cited by 14 publications

(4 citation statements)

References 59 publications

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“…In particular, the last approach has been extensively investigated, being rather general, powerful, and suitable for scale‐up 16–19. The most common catalysts of this type are based on titanium complexes, but effective methods involving other transition metals (in particular vanadium) are well documented 14,16–26. Diastereomerically pure sulfoxides can be obtained by either submitting chiral sulfoxides to diastereoselective processes1–4 (which generates novel substrate stereogenic centers) or oxidizing chiral sulfides diastereoselectively 4,14.…”

Section: Introductionmentioning

confidence: 99%

Selective and Practical Oxidation of Sulfides to Diastereopure Sulfoxides: A Combined Experimental and Computational Investigation

et al. 2013

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chloromethane or methanol), following the Curtin-Hammett principle, the favoured path is the pro-R channel (M1!TS!M2) affording the (R c ,R s )-2a' product species in agreement with the observed diastereoselectivity. The M1-M1' and TS-TS' energy gaps are actually determined by the difference in the hydrogen bond network that features the two species even if the approaching orientation of the two molecules is governed by the interactions between the p systems of oxidant and substrate aromatic rings. The diastereomeric ratio computed on the basis of the energy difference between TS and TS' (0.7 kcal mol À1 ) is 63:37, which must be compared to the experimental value 9:1. When we consider free energy differences (2.4 kcal mol À1 in vacuum and 2.9 kcal mol À1 in solution) this theoretical ratio becomes 85:15 and 89:11, respectively, in excellent agreement with the experimental value 9:1.

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Section: Introductionmentioning

confidence: 99%

Selective and Practical Oxidation of Sulfides to Diastereopure Sulfoxides: A Combined Experimental and Computational Investigation

et al. 2013

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“…For the enantioselective synthesis of sulfoximines we considered a route through enantioselective oxidation to the sulfoxide ( S4 ) . However, in all our attempts with chiral titanium complexes we obtained a racemic mixture of S4 .…”

Section: Resultsmentioning

confidence: 99%

Bicyclo[1.1.1]pentyl Sulfoximines: Synthesis and Functionalizations

et al. 2020

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Herein we present the first synthesis of bicyclo[1.1.1]pentyl (BCP) sulfoximines from the corresponding sulfides. Both BCPs and sulfoximines are bioisosteres used in medicinal chemistry and therefore desirable motifs. The access to BCP sulfides was enabled by the thiol addition to [1.1.1]propellane as published before. A broad scope with specific limitations was discovered for the sulfoximination. To diversify the sulfoximines, N‐acylations and N‐arylations were performed. As the N‐arylation was low yielding we optimized the copper(I) catalyzed reaction. A wide range of aryl iodides could be deployed and competitive reactions showed that aryl bromides react equally fast. In a scale‐up we prepared a suitable precursor for a BCP drug analogue. In this work several molecular structures could be determined by single‐crystal X‐ray diffraction.

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“…Along with tartrates, other chiral 1,2-diols have also been successfully applied as ligands in this type of reactions [63]. For example in 2006, Cardellicchio described the use of chiral hydrobenzoin as ligand in asymmetric titanium-catalyzed sulfoxidations with tert-butyl hydroperoxide [64].…”

Section: With Alkyl Hydroperoxides As Oxidantsmentioning

confidence: 99%

Recent developments in enantioselective titanium-catalyzed transformations

Pellissier

2022

Coordination Chemistry Reviews

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Enantioselective oxidation of sulfides catalyzed by titanium complexes of 1,2‐diarylethane‐1,2‐diols: Effect of the aryl substitution

Cited by 14 publications

References 59 publications

Selective and Practical Oxidation of Sulfides to Diastereopure Sulfoxides: A Combined Experimental and Computational Investigation

Selective and Practical Oxidation of Sulfides to Diastereopure Sulfoxides: A Combined Experimental and Computational Investigation

Bicyclo[1.1.1]pentyl Sulfoximines: Synthesis and Functionalizations

Recent developments in enantioselective titanium-catalyzed transformations

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