Nucleophilic Vinylic Substitution (SNV) of Trisubstituted Monofluoroalkenes for the Synthesis of Stereodefined Trisubstituted Alkenes and Divinyl Ethers

Enantioselective Nucleophilic Vinylic Substitution of Nitroolefins for the Synthesis of 3-Alkenyl Oxindoles

An asymmetric catalytic nucleophilic vinylic substitution (SNV) reaction of 5H-thiazol-4-ones and nitroolefins has been developed for the synthesis of 3-alkenyl oxindoles. The enantioselective SNV reaction with a nitro group as the leaving group proceeded smoothly to afford 3-alkenyl oxindoles in good yields with high regio- and enantioselectivity. The reaction showed broad substrate applicability. A quaternary carbon stereocenter, which was substituted by sp2 carbon, was constructed under mild reaction conditions.

Construction of Benzoxazole and Isoquinoline Compounds via Base-Mediated Cyclization of Amino Acid Derivatives

Biological organisms contain bioactive macromolecules such as amino acids, which serve as basic materials for constructing cells and repairing tissues. Due to the unique properties of the fluorine atom, which can alter the structure of proteins and increase their lipophilicity, incorporating a fluorine atom into amino acids has become a research hotspot. In this study, ethyl 3-bromo-2-((diphenylmethylene)amino)-3,3-difluoropropanoate was synthesized from glycine derivatives. Under alkaline conditions, this compound reacted with 2-aminophenol to generate a benzoxazole-containing amino acid derivative. This method is simple to operate, without metal participation, and is performed under relatively eco-friendly reaction conditions, providing a novel approach for the synthesis of benzoxazole heterocycles.

Nickel-Catalyzed Stereoconvergent C(sp2)-F Alkenylation of Monofluoroalkenes

The stereoconvergent synthesis of a single stereoisomer from E/Z-olefin mixtures remains one of the foremost challenges in organic synthesis. Herein, we describe a nickel-catalyzed stereoconvergent cross-coupling between E- and Z-mixed monofluoroalkenes and alkenyl electrophiles, which allows the construction of C(sp2)-C(sp2) bonds. This defluorinative transformation offers facile access to various 1,3-dienes with E-selectivity and good functional group tolerance. Preliminary mechanistic studies indicate that the reaction most likely proceeds through a migratory insertion/β-F elimination/isomerization process.

Palladium-Catalyzed Defluorinative Alkylation of gem-Difluoroalkenes with Cyclopropanols: Stereoselective Synthesis of γ-Fluorinated γ,δ-Unsaturated Ketones

A palladium-catalyzed defluorinative alkylation of gem-difluoroalkenes with cyclopropyl alcohols was developed. A range of γ-fluorinated γ,δ-unsaturated ketones were constructed in good yields with excellent stereoselectivities. In addition, by base-mediated intramolecular nucleophilic vinylic substitution (SNV), the products could be further transformed to 2,5-dimethylenetetrahydrofurans and analogues with excellent stereoselectivities.

A formal vinylic substitution reaction for the synthesis of α,β-unsaturated enol esters and their anticancer potential

Arylsulfonyl group-bearing α,β-unsaturated enol esters were readily assembled via the Cs2CO3-mediated union of 2-bromoallyl sulfones and cinnamic acids. The overall transformation is equivalent to an sp2 carbon-oxygen coupling reaction, and therefore constitutes a formal vinylic substitution. Several of the products display promising levels of antiproliferative activities higher than that of the anticancer drug carboplatin. Thiophenol reacted with 2-bromoallyl sulfones under identical conditions to afford α-thiophenyl-α'-tosyl acetone via an apparent aerial oxidation.

Synthetic Advantages of Defluorinative C-F Bond Functionalization

Much progress has been made in the development of methods to both create compounds that contain C-F bonds and to functionalize C-F bonds. As such, C-F bonds are becoming common and versatile synthetic functional handles. This review summarizes the advantages of defluorinative functionalization reactions for small molecule synthesis. The coverage is organized by the type of carbon framework the fluorine is attached to for mono- and polyfluorinated motifs. The main challenges, opportunities and advances of defluorinative functionalization are discussed for each class of organofluorine. Most of the text focuses on case studies that illustrate how defluorofunctionalization can improve routes to synthetic targets or how the properties of C-F bonds enable unique mechanisms and reactions. The broader goal is to showcase the opportunities for incorporating and exploiting C-F bonds in the design of synthetic routes, improvement of specific reactions and advent of new methods.

Preparation of Vinylphosphonates from Ketones Promoted by Tf2O

An efficient triflic anhydride promoted phosphorylation of ketone was disclosed, and vinylphosphorus compounds were prepared under solvent- and metal-free conditions. Both aryl and alkyl ketones could perform smoothly to give vinyl phosphonates in high to excellent yields. In addition, the reaction was easy to carry out and easy to scale up. Mechanistic studies suggested that this transformation might involve nucleophilic vinylic substitution or a nucleophilic addition-elimination mechanism.

Rhodium(I)-Catalyzed Defluorinative Coupling of Boronic Acids with Monofluoroalkenes

We herein describe a highly selective Rh(I)-catalyzed defluorinative coupling of boronic acids with (E)-β-monofluoroacrylates. In contrast to previous methods, the trisubstituted (Z)-alkene products were obtained in excellent dr with an inversion of double bond geometry. Experimental and computational studies established that Rh(I)-facilitated β-F elimination is favored over competing β-H elimination and protodemetalation.

Highly Selective C-F Bond Functionalization of Tetrasubstituted gem-Difluoroalkenes and Trisubstituted Monofluoroalkenes Using Grignard Reagents

We herein describe selective C-F bond functionalizations of tetrasubstituted gem-difluoroalkenes and trisubstituted monofluoroalkenes using Grignard reagents without the transition metal catalyst. β,β-Difluoroacrylates react with Grignard reagents under mild conditions to afford tetrasubstituted (E)-β-monofluoroacrylates. Experimental and computational studies revealed that the selectivity stems from the intrinsic reactivity difference between the (E)- and (Z)-isomers toward excess Grignard reagent, which leads to the resolution of the two products.