Triazole assistance set the stage for a unified strategy for the iron-catalyzed C-H allylation of arenes, heteroarenes, and alkenes with ample scope. The versatile catalyst also proved competent for site-selective methylation, benzylation, and alkylation with challenging primary and secondary halides. Triazole-assisted C-H activation proceeded chemo-, site-, and diastereo-selectively, and the modular TAM directing group was readily removed in a traceless fashion under exceedingly mild reaction conditions.
The so-called magic methyl effect significantly boosts the bioactivities and physical properties of pharmacologically active drugs. Direct introduction of the methyl group by CH activation was accomplished with a versatile iron catalyst, which enabled the CH methylation of (hetero)benzamides, anilides, alkenes, and even alkanes by triazole assistance in a chemo-, site- and diastereo-selective fashion.
Triazole assistance enabled the first iron-catalyzed C-H alkynylation of arenes, heteroarenes, and alkenes. The modular TAM directing group set the stage for a sequential C-H alkynylation/annulation strategy with ample scope, enabling the iron-catalyzed assembly of isoquinolones, pyridones, pyrrolones, and isoindolinones with high levels of chemo-, site-, and regioselectivity.
The design of trisubstituted triazoles set the stage for proximity-induced iron-catalyzed C-H activation of benzyl and aryl amines with ample scope. Thereby, C-H alkylations and C-H arylations proved viable with high levels of chemo and positional selectivities by means of racemization-free iron catalysis with the reusable triazole being removed in a traceless fashion.
Iron-catalyzed C-H/N-H functionalizations were achieved by the aid of modular triazole amides. The alkyne annulation allowed for the expedient synthesis of valuable isoquinolone scaffolds with high levels of chemo-, site- and regio-selectivities.
Triazole assistance set the stage for aunified strategy for the iron-catalyzed C À Ha llylation of arenes,h eteroarenes, and alkenes with ample scope.T he versatile catalyst also proved competent for site-selective methylation, benzylation, and alkylation with challenging primary and secondary halides.T riazole-assisted C À Ha ctivation proceeded chemo-, site-, and diastereo-selectively,and the modular TAMdirecting group was readily removed in at raceless fashion under exceedingly mild reaction conditions.
Angewandte ChemieCommunications Angewandte Chemie Communications
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