A Combined Theoretical and Experimental Investigation on the Enantioselective Oxidation of Aryl Benzyl Sulfides in the Presence of a Chiral Titanium Catalyst

Naso, Francesco; Capozzi, Maria Annunziata M.; Bottoni, Andreà; Calvaresi, Matteo; Bertolasi, Valerio; Capitelli, Francesco; Cardellicchio, Cosimo

doi:10.1002/chem.200902110

Cited by 38 publications

(80 citation statements)

References 64 publications

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“…[101] Frühere Arbeiten zeigten, dass aromatische T-förmige Edge-to-Face-Wechselwirkungen in enantioselektiven Reduktionen eine bedeutende Rolle spielen können. [102] Ein Effekt dieser Wechselwirkungen auf die Ausbeute und/oder Selektivität wurde für unterschiedliche Transformationen vorgeschlagen: intra-und intermolekulare photochemische Reaktionen, [103] allylische Oxidationen, [104] Ruthenium-katalysierte Transferhydrierungen, [105] Titan-katalysierte Oxidationen von Sulfiden [106] und andere. [107] Zwei Beispiele illustrieren diese Fortschritte (Abbildung 8).…”

Section: Aren-aren-wechselwirkungen In Der Organischen Syntheseunclassified

Aromatische Ringe in chemischer und biologischer Erkennung: Energien und Strukturen

2011

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Dieser Aufsatz beschreibt Phänomene der molekularen Erkennung von aromatischen Ringen in chemischen und biologischen Systemen in einem multidimensionalen Ansatz. Neue Ergebnisse aus der Wirt‐Gast‐Chemie, biologischen Affinitätsassays und Biostrukturanalysen, Datenbanksuchen in der Cambridge Structural Database (CSD) und der Protein Data Bank (PDB) und hochentwickelten Rechnungen, die seit dem Erscheinen eines früheren Aufsatzes in 2003 veröffentlicht wurden, sind hier zusammengefasst. Die Themen Aren‐Aren‐, Perfluoraren‐Aren‐, Schwefel‐Aren‐, Kation‐π‐ und Anion‐π‐Wechselwirkungen sowie Wasserstoffbrücken zu aromatischen Systemen werden behandelt. Das gewonnene Wissen kommt besonders der strukturbasierten Hit‐zur‐Leitstruktur‐Entwicklung und der Leitstrukturoptimierung sowohl in der pharmazeutischen als auch in der Pflanzenschutzindustrie zugute. Zudem erleichtert es die Entwicklung neuer Materialien und supramolekularer Systeme und soll zu weiteren Anwendungen von Wechselwirkungen mit aromatischen Ringen zur Kontrolle des stereochemischen Verlaufs chemischer Umsetzungen inspirieren.

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Section: Aren-aren-wechselwirkungen In Der Organischen Syntheseunclassified

Aromatische Ringe in chemischer und biologischer Erkennung: Energien und Strukturen

2011

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“…[7,8] For many years, titanium catalyst chemistry in the oxidation of sulfides has focused mainly on the synthetic aspects, whereas mechanistic investigations have seldom been reported. [11][12][13] However, in 2009, three similar studies [6,14,15] on titanium-catalyzed enantioselective oxidation of sulfides were published, two of them [6,15] also considered theoretical aspects.…”

Section: Introductionmentioning

confidence: 96%

“…[16] Enantiopure (S)-omeprazole was obtained when (1R,2R)-1,2-bis(2-bromophenyl)ethane-1,2-diol was used as a ligand of the titanium. [14] Our contribution to the same topic was represented by a combined theoretical and experimental investigation [15] of the highly enantioselective TBHP oxidation of aryl benzyl sulfides in the presence of a complex between titanium and hydrobenzoin. [16] In the contribution, we described our most recent research on the application of this oxidation protocol.…”

Section: Introductionmentioning

confidence: 99%

A Study of Factors Affecting Enantioselectivity in the Oxidation of Aryl Benzyl Sulfides in the Presence of Chiral Titanium Catalysts

et al. 2011

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“…-is a water soluble species, and it was confirmed by 51 V NMR that its concentration increased when the oxidant was added rapidly. 94 Ellman et al investigated whether the effects seen due to different addition rates were influenced by the nature of the solvent.…”

Section: Scheme 33mentioning

confidence: 91%

“…Bolm speculated that the oxidising species formed in this oxidation were vanadium(V) species having oxoperoxy groups 90. 97 Bryliakov conducted a more extensive investigation of the vanadium species formed using 51 V NMR analysis and found that the monoperoxy species formed can exist in more than one form. 98 Two principal species were proposed to be present in equilibrium with each other -an unchelated form 91 and a chelated form 92, in which the primary alcohol coordinates to the vanadium (Scheme 34).…”

Section: Scheme 33mentioning

confidence: 99%

Synthesis of enantioenriched sulfoxides

O’Mahony¹,

Kelly²,

Lawrence³

et al. 2011

Arkivoc

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This review discusses strategies for the asymmetric synthesis of sulfoxides, compounds with many applications in stereoselective synthesis and in some cases with pharmaceutical application. The review describes asymmetric oxidation, including metal catalyzed and nonmetal and biological oxidation processes, in addition to synthetic approaches via nucleophilic substitution of appropriately substituted precursors. Kinetic resolution in oxidation of sulfoxides to the analogous sulfones is also discussed; in certain instances, access to enantioenriched sulfoxides can be achieved via a combination of asymmetric sulfide oxidation and complementary kinetic resolution in sulfoxide oxidation.

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A Combined Theoretical and Experimental Investigation on the Enantioselective Oxidation of Aryl Benzyl Sulfides in the Presence of a Chiral Titanium Catalyst

Cited by 38 publications

References 64 publications

Aromatische Ringe in chemischer und biologischer Erkennung: Energien und Strukturen

Aromatische Ringe in chemischer und biologischer Erkennung: Energien und Strukturen

A Study of Factors Affecting Enantioselectivity in the Oxidation of Aryl Benzyl Sulfides in the Presence of Chiral Titanium Catalysts

Synthesis of enantioenriched sulfoxides

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