Gold‐Catalyzed Reactions of 2‐Alkynyl‐1‐indolyl‐1,2‐diols with Thiols: Stereoselective Synthesis of (<i>Z</i>)‐α‐Indol‐3‐yl α‐(2‐Thioalkenyl) Ketones

Martínez-Lara, Fernando; Suárez, Anisley; Velasco, Noelia; Suárez‐Pantiga, Samuel; Sanz, Roberto

doi:10.1002/adsc.202100930

Cited by 7 publications

(1 citation statement)

References 75 publications

(24 reference statements)

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“…181 An interesting cascade transformation of propargylic glycol initiated by the hydrothiolation of the triple bond was reported in 2022. 182 The problem to convert non-activated alkenes was tackled in 2016 by Ogawa and co-workers with a simple gold(I) complex, which exhibited anti-Markovnikov selectivity (Scheme 52 ). 183 A range of terminal or cyclic (1 example) alkenes and aromatic and aliphatic thiols was successfully converted into linear thioethers.…”

Section: Hydrothiolationmentioning

confidence: 99%

Recent Metal-Catalyzed Methods for Thioether Synthesis

et al. 2022

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This review summarizes the more recent methods for the synthesis of thioethers using homogeneous metals as catalysts. The thioether moiety can be found in numerous compounds for pharmaceutical, agricultural or material applications and it is therefore important to develop new, efficient methods for their synthesis. The recent efforts in this field focus on the use of non-precious metal catalysts, as well as on the development of new bond-forming processes. 1 Introduction 2 Cross-couplings 3 C-H Activation 4 Hydrothiolation 5 Carbothiolation 6 Miscelaneous 7 Conclusion

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Section: Hydrothiolationmentioning

confidence: 99%

Recent Metal-Catalyzed Methods for Thioether Synthesis

et al. 2022

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NIS/HFIP‐Mediated Synthesis of Indene‐Based β‐Iodoalkenyl Sulfides from Propargylic Sulfides

et al. 2022

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A tandem 1,3‐sulfur migration followed by iodocyclization reaction of propargylic sulfides in the presence of NIS in HFIP has been developed to synthesize indene‐based β‐iodoalkenyl sulfides. The choice of the reaction media is crucial to promote the reaction. The proposed mechanism involving the initial NIS activation by HFIP and favoring the sulfur migration of the starting propargylic thioether via cationic intermediates is experimentally supported. In addition, the suitability of selected indene‐based β‐iodoalkenyl sulfides as building blocks for subsequent C−C bond‐forming reactions has been demonstrated.

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“Back‐to‐Front” Indole and Carbazole Synthesis from N,N‐Bis‐(2‐bromoallyl)amines by Combining Carbolithiation Reactions with Gold‐Catalysis

et al. 2022

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The combination of organolithium chemistry with gold catalysis has enabled the development of a synthetic strategy for accessing polysubstituted indoles and carbazoles from readily available starting materials. This method is based on a "back-to-front" approach from ketopyrroles, generated by intramolecular carbolithiation of N,N-bis-(2-lithioallyl)amines that evolve into 3,4-bis(lithiomethyl)dihydropyrrole intermediates capable of reacting with carboxylic esters and Weinreb amides. These ketopyrroles have demonstrated to be excellent precursors of mono or bis(alkynols)pyrroles that, under gold-catalysis, experience a benzannulation reaction providing access to regioselectively substituted indoles or carbazoles.

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Gold‐Catalyzed Reactions of 2‐Alkynyl‐1‐indolyl‐1,2‐diols with Thiols: Stereoselective Synthesis of (Z)‐α‐Indol‐3‐yl α‐(2‐Thioalkenyl) Ketones

Cited by 7 publications

References 75 publications

Recent Metal-Catalyzed Methods for Thioether Synthesis

Recent Metal-Catalyzed Methods for Thioether Synthesis

NIS/HFIP‐Mediated Synthesis of Indene‐Based β‐Iodoalkenyl Sulfides from Propargylic Sulfides

“Back‐to‐Front” Indole and Carbazole Synthesis from N,N‐Bis‐(2‐bromoallyl)amines by Combining Carbolithiation Reactions with Gold‐Catalysis

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