The well-established oxidative addition -reductive elimination pathway is the most followed one in transition metal catalyzed cross coupling reactions. While readily occurring with a series of transition metals, it does not take place with gold(I) complexes which have shown some reluctance to undergo oxidative addition unless special sets of ligands on gold(I), reagents or reaction conditions are used. A new possibility to overcome this hurdle has been devised. Upon visible light irradiation, an iridium photocatalyst triggers via triplet sensitization the oxidative addition of an alkynyliodide onto a vinylgold(I) intermediate to deliver Csp 2 -Csp coupling products after reductive elimination. Mechanistic and modeling studies support that an energy transfer takes place and not a redox pathway. This novel mode of activation in gold homogenous catalysis was applied in several dual catalytic processes. Alkynylbenzofuran derivatives were obtained from o-alkynylphenols and iodoalkynes in the presence of catalytic gold(I) and iridium(III) complexes under blue LED irradiation.Over the last two decades, homogeneous gold catalysis has been extensively used to efficiently and selectively promote a variety of cyclization processes. [1][2][3] The typical casting involves bifunctional substrates bearing an unsaturation prompt to electrophilic activation and a judiciously positioned internal nucleophile. A protodemetalation of the organogold intermediates to afford hydrofunctionalized products generally terminates the catalytic cycles. 4 Pursuing the step economy principle and also aiming at higher level of molecular complexity, some in situ post-functionalization reactions of the organogold 5 intermediate have been devised such as electrophilic halogenation or cross-coupling reactions. Although palladium catalyzed cross coupling from an organogold(I) intermediate has been
A new method for the arylative cyclization of o-alkynylphenols with aryldiazonium salts via dual photoredox/gold catalysis is described. The reaction proceeds smoothly at room temperature in the absence of base and/or additives and offers an efficient approach to benzofuran derivatives. The scope of the transformation is wide, and the limitations are discussed. The reaction is proposed to proceed through a photoredox-promoted generation of a vinylgold(III) intermediate that undergoes reductive elimination to provide the heterocyclic coupling adduct.
A transition-metal-free method for the synthesis of C6 phenanthridine derivatives by arylative cyclization of 2-isocyanobiphenyls with arylamines in one pot was developed. Mechanistic studies suggest that electrophilic aromatic substitution (SEAr) of a nitrilium intermediate and homolytic aromatic substitution (HAS) of an imidoyl radical intermediate are two competitive reaction pathways involved in the annulation step.
A transition-metal-free carboxyamidation process, using aryl diazonium tetrafluoroborates and isocyanides under mild conditions, has been developed. This novel conversion was initiated by a base and solvent induced aryl radical, followed by radical addition to isocyanide and single electron transfer (SET) oxidation, affording the corresponding arylcarboxyamide upon hydration of the nitrilium intermediate.
Alkynes are widely used in chemistry, medicine and materials science. Here we demonstrate a transition-metal and photocatalyst-free inverse Sonogashira coupling reaction between iodoalkynes and (hetero)arenes or alkenes under visible-light irradiation....
A convenient and mild protocol for the gold-catalyzed
intermolecular
coupling of o-alkynylphenols with haloalkynes to
give vinyl benzofurans is reported. In this work, the gold catalyst
SIPrAuCl and the co-catalyst NaBARF would corporately promote the
intramolecular cyclization of the o-alkynylphenol
to benzofuran, and then a selective hydroarylation of benzofuran to
haloalkyne was catalyzed by the same catalysts. Computational studies
suggest that the hydroarylation process takes place via a concerted
nucleophilic attack pathway of the benzofuran to the C2 carbon of
the activated haloalkyne, and reveal the original driving force of
this hydroarylation process.
Benzofuranones are attractive synthetic targets in medicinal and natural products. The cycloisomerization of o-alkynyl phenol to benzofuran-3(2H)-one is reported here using gold(I) and Selectfluor. This benzofuranone can also be obtained from benzofuran without a gold catalyst. This study presents two appealing synthetic methods for benzofuran-3(2H)-ones that use readily available starting materials, have high chemoselectivity and operate under very mild conditions.
A highly regio- and stereoselective
synthesis of a Z-alkenyl indole via the gold-catalyzed
addition of an indole to a
haloalkyne was developed. In the presence of gold catalyst SIPrAuCl
and cocatalyst NaBARF, a broad range of indoles react with haloalkynes
to afford Z-alkenyl indoles with high selectivity
at room temperature. Computational studies suggest that the hydroarylation
reaction takes place via a concerted C2 addition pathway of the indole
to the activated haloalkyne.
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