Catalytic Asymmetric Synthesis. Группа авторов

Catalytic Asymmetric Synthesis - Группа авторов


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by Maruoka in 2006 [59, 60].

       4.2.1.4. Arylation

Schematic illustration of enantioselective arylation of 1,3-dicarbonyl nucleophiles via nucleophilic aromatic substitution.

      Source: [61, 62].

Schematic illustration of enantioselective arylation of mono-alkylated glycine imines via nucleophilic aromatic substitution. Schematic illustration of enantioselective arylation of oxindoles via nucleophilic aromatic substitution.

      Source: Based on [65].

       4.2.1.5. Carbon‐Heteroatom (C‐X) Bond Formation

      The importance of enantioselective carbon‐heteroatom bond‐forming reactions cannot be overstated seeing as C–X (X = halogen, O, N, etc.) bonds are ubiquitous in pharmaceuticals and agrochemicals. Over the years, phase‐transfer catalysis has proven to be a privileged strategy to achieve these transformations. Among the most important factors for the successful implementation of such strategies is the development and use of suitable electrophilic heteroatom transfer reagents.

Schematic illustration of atropselective macrocyclization via nucleophilic aromatic substitution.

      Source: Based on [68].

Schematic illustration of enantioselective alpha-fluorination of beta-ketoesters.

      Source: Based on [71].

Schematic illustration of enantioselective alpha-chlorination and alpha-sulfenylation of 1,3-dicarbonyl nucleophiles.

      Source: Based on [72].

Schematic illustration of enantioselective alpha-hydroxylation of indanones.

      Source: Based on [73].


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