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Remote C-H Bond Functionalizations


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Modified from Dutta et al. [36].

Chemical reaction depicts the Rh-catalyzed meta-C–H olefination of benzylsulfonyl esters.

      Source: Modified from Bera et al. [22].

Chemical reaction depicts the meta-C–H perfluoroalkenylation of benzylsulfonyl esters.

      Source: Modified from Brochetta et al. [24].

Chemical reaction depicts the meta-C–H allylation of benzylsulfonyl esters.

      Source: Modified from Achar et al. [27].

H bond to a carbon–heteroatom bond is highly important since their prevalence in complex natural products, pharmaceuticals, and agrochemicals. In 2016, Sunoj, Maiti, and coworkers achieved meta‐C–H oxygenation of benzylsulfonyl esters by using an oxygenating agent PhI(OOCR3)2 (Scheme 2.42) [40]. Notably, the formation of hydroxylated or acetoxylated molecules was obtained under similar reaction conditions with the variation of R (R = H, F) on the common agent PhI(OOCR3)2. Importantly, the approach had also been applied to the synthesis of unsymmetrically substituted phenols.

Chemical reaction depicts the meta-C–H oxygenation of benzylsulfonyl esters.

      Source: Modified from Maji et al. [40].

Chemical reaction depicts the meta-C–H cyanation of benzylsulfonyl and 2-phenethylsulfonyl esters.

      Source: Modified from Bag et al. [41].

H bond activation. Meanwhile, Yu, Dai, and coworkers also achieved an isolated example of meta‐C–H deuteration of benzylsulfonyl esters using pyridine‐based template.

Chemical reaction depicts the meta-C–H deuteration of benzylsulfonyl esters.

      Source: Modified from Bag et al. [26].

Chemical reaction depicts the meta-C–H silylation and germanylation.

      Source: Modified from Modak et al. [42].

      2.2.5 Phenol Derivatives