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Direct cross-dehydrogenative coupling

Duan et al. developed a Cu20-catalyzed synthesis of highly functionalized dihydroquinolinones through tandem oxidative cyclization of cinnamamides with benzyl hydrocarbons (Scheme 8.96). The reaction proceeds smoothly via the direct cross-dehydrogenative coupling of C(sp )-H and C(sp )-H bonds using tert-butylperoxy benzoate (TBPB) as oxidant. This is the first example... [Pg.272]

Ruthenium- and rhodium-catalytic systems for the direct cross-dehydrogenative coupling (CDC) of acrylamides with electron-deficient alkenes forming (Z, )-dienamides using copper(II) acetate as the oxidant has been developed. Both methods exhibit wide functional group compatibility and substrate flexibility. It is proposed that the reaction is initiated by cyclometalation of acrylamide by amide-directing C-H bond activation. Coordination of the alkene to the metal centre, followed by insertion of the carbon-carbon double bond, forms a seven-membered ruthacycle or rhodacycle species. Subsequent -elimination occurs to afford the desired (Z, )-dienamide. A CDC between two heteroarenes is effected with copper(II) acetate in the absence... [Pg.94]

Li, Z. and Li, C.-J. 2005. CuBr-catalyzed direct indolation of tetrahydroisoquinolines via cross-dehydrogenative coupling between sp3 C-H and sp2 C-H bonds. Journal of the American Chemical Society, 127 6968-69. [Pg.48]

Copper Catalysts Direct oxidative functionalization of tertiary amines is of importance both enzymatically and synthetically. The combination of CuBr—TBHP has proved to be as an efficient system in the oxidative activation of sp3 C—H bonds adjacent to a nitrogen atom [10]. Various types of cross-dehydrogenative coupling (CDC) reactions have been developed, including compounds with activated methylene groups [11], indoles [12], and terminal alkynes (Scheme 11.2) [13]. Because 1,2,3,4-tetrahydroisoquinoline derivatives are important structure motifs of natural... [Pg.338]

Substrate Controlled Directing Groups in Cross-Dehydrogenative Coupling 177... [Pg.137]

Keywords C—H functionalization Cross-dehydrogenative coupling Directing groups ... [Pg.138]

Scheme 43 Rh-catalyzed cross-dehydrogenative coupling of (benzo)furans and (benzo)thiophenes (a) and arenes bearing a carboxamide directing group with (benzo)furans and (benzo)thiophenes (b). Scheme 43 Rh-catalyzed cross-dehydrogenative coupling of (benzo)furans and (benzo)thiophenes (a) and arenes bearing a carboxamide directing group with (benzo)furans and (benzo)thiophenes (b).
Zhao and Du s group [63] developed a metal-free cross-dehydrogenative coupling (CDC) of various 2-(A -arylamino)aldehydes 79 for direct aryl-aldehyde C (sp )-C(sp ) bond formation to provide a convenient approach for the synthesis of biologically important acridone derivatives 80 (Scheme 19). PIDA was used in combination with a substoichiometric amount of benzoyl peroxide as radical initiator for this oxidative intramolecular annulation reaction which presumably proceeds via the intermediacy of acyl radicals 81. [Pg.88]

Hypervalent iodine(III) reagents have recently been applied in the direct functionalization of heterocycles by cross-dehydrogenative coupling reactions leading to the formation of new C-N and C-C bonds. [Pg.100]

Prior to the concept of cross-dehydrogenative-coupling (CDC), Moritani and Fujiwara developed the oxidative formation of Heck-type reaction products directly from arenes and alkenes, instead of aryl halides and... [Pg.2]

Activation by rhodium complexes has been used to achieve direct exchange of ketone methyl or aryl groups with an aryl group on ArB(OH)2, selective C(CO)-C bond cleavage on reaction of ketones with water, oxidative acylation between secondary benzamides and aryl aldehydes with subsequent intramolecular cyclization to 3-hydroxyisoindolin-l-ones, " cross dehydrogenative coupling to form xanthones from 2-aryloxybenzaldehydes, and activation of the aldehydic C-H bond to achieve hydroacylation of unactivated alkenes by salicylaldehyde derivatives and of vinylsilane by benzaldehyde. ... [Pg.39]

The groundbreaking work of Shue, de Vries and van Leeuwen others on oxidative olefinations and the contributions of Lu, Fagnou, DeBoef and others on direct arylations laid the foundation for the development of an impressive number of transition-metal-catalyzed selective cross-dehydrogenative sp C-H couplings. Notably, the Fujiwara-Moritani reaction is also commonly termed the oxidative Mizoroki-Heck reaction . Progress in this area has been extensively reviewed and will thus only be briefly mentioned here, notwithstanding their great importance. [Pg.21]

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See also in sourсe #XX -- [ Pg.350 , Pg.388 , Pg.389 , Pg.390 ]



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Couplings direct

Cross-dehydrogenative couplings

Dehydrogenations coupling

Dehydrogenative coupling

Direct crossing

Direct dehydrogenation

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